Crystallized LXR polypeptide in complex with a ligand and screening methods employing same

ABSTRACT

Solved three-dimensional crystal structures of a human LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide is disclosed. Contact points between the LXR and the ligands are also disclosed. Additionally, methods of designing modulators of the biological activity of LXR, and other LXR ligand binding domain polypeptides, are also disclosed.

RELATED APPLICATIONS

[0001] This application claims priority to U.S. application No. 60/376,019 filed Apr. 26, 2002.

TECHNICAL FIELD

[0002] The present invention relates generally to the structure of LXR, and more particularly to the crystalline structure of LXR in complex with a ligand. The invention further relates to methods by which modulators and ligands of a nuclear receptor, including a LXRβ can be identified. Abbreviations APS Advanced Photon Source cDNA complementary DNA DBD DNA binding domain DMSO dimethyl sulfoxide DNA deoxyribonucleic acid DTT dithiothreitol EDTA ethylenediaminetetraacetic acid EPC 24(S), 25-epoxycholesterol FXR farnesoid X receptor HRE hormone response element kDa kilodalton(s) LBD ligand binding domain LN₂ liquid nitrogen LXR liver X receptor LXRα liver X receptor α LXRβ liver X receptor β NDP nucleotide diphosphate NR nuclear receptor nt nucleotide PCR polymerase chain reaction pl isoelectric point RMSD root-mean-square deviation SIRAS single isomorphous replacement anomalous scattering SPAP secreted placental alkaline phosphatase SRC1 steroid receptor coactivator 1 Amino Acid Abbreviations Single-Letter Code Three-Letter Code Name A Ala Alanine V Val Valine L Leu Leucine I Ile Isoleucine P Pro Proline F Phe Phenylalanine W Trp Tryptophan M Met Methionine G Gly Glycine S Ser Serine T Thr Threonine C Cys Cysteine Y Tyr Tyrosine N Asn Asparagine Q Gln Glutamine D Asp Aspartic Acid E Glu Glutamic Acid K Lys Lysine R Arg Arginine H His Histidine

[0003] Functionally Equivalent Codons Amino Acid Codons Alanine Ala A GCA GCC GCG GCU Cysteine Cys C UGC UGU Aspartic Acid Asp D GAC GAU Glumatic acid Glu E GAA GAG Phenylalanine Phe F UUC UUU Glycine Gly G GGA GGC GGG GGU Histidine His H CAC CAU Isoleucine Ile I AUA AUC AUU Lysine Lys K AAA AAG Methionine Met M AUG Asparagine Asn N AAC AAU Proline Pro P CCA CCC CCG CCU Glutamine Gln Q CAA CAG Threonine Thr T ACA ACC ACG ACU Valine Val V GUA GUC GUG GUU Tryptophan Trp W UGG Tyrosine Tyr Y UAC UAU Leucine Leu L UUA UUG CUA CUC CUG CUU Arginine Arg R AGA AGG CGA CGC CGG CGU Serine Ser S ACG AGU UCA UCC UCG UCU

BACKGROUND ART

[0004] Nuclear receptors represent a superfamily of proteins that specifically bind a physiologically relevant small molecule, such as a hormone or vitamin. As a result of a molecule binding to a nuclear receptor, the nuclear receptor changes the ability of a cell to transcribe DNA, i.e. nuclear receptors modulate the transcription of DNA. However they can also have transcription independent actions.

[0005] Unlike integral membrane receptors and membrane-associated receptors, nuclear receptors reside in either the cytoplasm or nucleus of eukaryotic cells. Thus nuclear receptors comprise a class of intracellular, soluble ligand-regulated transcription factors. Nuclear receptors include but are not limited to receptors for glucocorticoids, androgens, mineralocorticoids, progestins, estrogens, thyroid hormones, vitamin D retinoids, and icosanoids. Many nuclear receptors, identified by either sequence homology to known receptors (See, Drewes et al., (1996) Mol. Cell. Biol. 16:925-31) or based on their affinity for specific DNA binding sites in gene promoters (See, Sladek et al., Genes Dev. 4:2353-65), have unascertained ligands and are therefore termed “orphan receptors.”

[0006] Structurally, nuclear receptors are generally characterized by two distinct structural elements. First, nuclear receptors comprise a central DNA binding domain that targets the receptor to specific DNA sequences, which are known as hormone response elements (HREs). The DNA binding domains of these receptors are related in structure and sequence, and are located within the middle of the receptor. Second, the C-terminal region of nuclear receptors encompasses the ligand binding domain (LBD). Upon binding a ligand, the receptor shifts to a transcriptionally active state.

[0007] Thus, the steroid/nuclear receptor superfamily is comprised of multi-domain transcription factors that regulate transcriptional activation in response to binding small molecules. The two liver X receptors, LXRα (NR1H3) and LXRβ (NR1H2), together with the farnesoid X receptor FXR (NR1H4) form a subset of the steroid/nuclear receptor superfamily that bind oxysterols (Janowski, et al., (1999) Proc. Nat. Acad. Sci. U.S.A. 96:266-271) and bile acids (Parks et al., (1999) Science 284:1365-1368; Makishima et al., (1999) Science 284:1362-1365), respectively. This subset of receptors is involved in the regulation of genes involved in cholesterol metabolism, transport, and elimination. LXR target genes include the ATP binding cassette ABCA1, SREBP1, etc. (Lehmann et al., (1997) J. Biol. Chem. 272:3137-3140; Schultz et al., (2000) Genes Dev. 14:2831-2838; Venkateswaran et al., (2000) Proc. Nat. Acad. Sci. U.S.A. 97:12097-12102). Oxysterols as natural LXR ligands is in accordance with their role in regulating cholesterol metabolism, and this family of compounds shows clear structure activity relationships with regard to LXR activation (Lehmann et al., (1997) J. Biol. Chem. 272:3137-3140; Forman et al., (1997) Proc. Nat. Acad. Sci. U.S.A. 94:10588-10593; Spencer et al., (2001) Journal of Med. Chem. 44:886-897). One of the most potent activators of both LXR subtypes is 24(S), 25-epoxycholesterol, which is widely found in the liver (Lehmann et al., (1997) J. Biol. Chem. 272: 3137-3140).

[0008] Because of the medical interest in cholesterol regulation, LXR has also been the target for drug discovery efforts. Several LXR specific compounds have been identified, including the compound N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide (also referred to interchangeably herein as “T0901317” and “T317”) (Schultz et al., (2000) Gene Dev. 14:2831-2838), a sulfonamide steroid mimetic that is as potent in activating both LXRs than the natural ligands. These compounds have been shown to be effective in vivo in reducing serum cholesterol levels and plaque accumulation.

[0009] Unraveling the structural basis of how LXR recognizes an array of different endogenous and exogenous compounds, including both small and large ligands, is critical to understanding how compounds, such as cholesterol, are cleared from the body. Such knowledge can also improve the ability to predict and avoid dangerous drug-drug interactions.

[0010] Polypeptides, including the ligand binding domain of LXRα and the ligand binding domain of LXRβ, have a three-dimensional structure determined by the primary amino acid sequence and the environment surrounding the polypeptide. This three-dimensional structure establishes the polypeptide's activity, stability, binding affinity, binding specificity, and other biochemical attributes. Thus, knowledge of a protein's three-dimensional structure can provide much guidance in designing agents that mimic, inhibit, or improve its biological activity in soluble or membrane bound forms.

[0011] The three-dimensional structure of a polypeptide can be determined in a number of ways. Many of the most precise methods employ X-ray crystallography (See, e.g., Van Holde, (1971) Physical Biochemistry, Prentice-Hall, New Jersey, pp. 221-39). This technique relies on the ability of crystalline lattices to diffract X-rays or other forms of radiation. Diffraction experiments suitable for determining the three-dimensional structure of macromolecules typically require high-quality crystals. Unfortunately, such crystals have been unavailable for the ligand binding domain of LXR as well as many other proteins of interest. Thus, high-quality diffracting crystals of the ligand binding domain of LXR would greatly assist in the elucidation of LXR's three-dimensional structure, and would provide insight into the ligand binding properties of LXR.

[0012] Clearly, the solved crystal structure of the LXR ligand binding domain would be useful in the design of modulators of activity mediated by all LXR isoforms. Additionally, evaluation of the available sequence data has made it clear that LXR shows structural homology with the three-dimensional fold of other proteins.

[0013] A solved LXR-ligand crystal structure would provide structural details and insights necessary to design a modulator of LXR that maximizes preferred requirements for any modulator, i.e. potency and specificity. A LXR-ligand-coactivator fragment crystal structure would provide additional information. By exploiting the structural details obtained from a LXR-ligand crystal structure, or a LXR-ligand-coactivator fragment crystal structure, it would be possible to design a LXR modulator that, despite LXR's similarity with other proteins, exploits the unique structural features of LXR. A LXR modulator developed using structure-assisted design would take advantage of heretofore unknown LXR structural considerations and thus be more effective than a modulator developed using homology-based design. Potential or existent homology models cannot provide the necessary degree of specificity. A LXR modulator designed using the structural coordinates of a crystalline form of LXR would also provide a starting point for the development of modulators of other structurally similar proteins.

[0014] What is needed, therefore, is a crystallized form of a LXR LBD polypeptide, preferably in complex with a ligand. Acquisition of crystals of the LXR LBD polypeptide will permit the three dimensional structure of the LXR LBD to be determined. Knowledge of this three dimensional structure will facilitate the design of modulators of LXR activity, as well as the activity of other NRs. Such modulators can lead to therapeutic compounds to treat a wide range of conditions, including conditions associated with high serum cholesterol levels.

SUMMARY OF THE INVENTION

[0015] A crystalline form comprising a substantially pure LXR ligand binding domain polypeptide and a ligand is disclosed. Preferably, the crystalline form has lattice constants of a=60.25 Å, b=82.45 Å, c=123.18 Å, α=90°, β=90°, γ=90°. More preferably, the crystalline form is an orthogonal crystalline form. Even more preferably, the crystalline form has a space group of P2₁2₁2. Still more preferably, the LXR ligand binding domain polypeptide has the amino acid sequence shown in SEQ ID NO: 8. It is also preferable that the ligand is N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide.

[0016] Yet another crystalline form comprising a substantially pure LXR ligand binding domain polypeptide, a ligand and a coactivator polypeptide is disclosed. Preferably, the crystalline form has lattice constants of a=71.17 Å, b=120.01 Å, c=147.56 Å, α=90°, β=90°, γ=90°. More preferably, the crystalline form is an orthoganol crystalline form. Even more preferably, the crystalline form has a space group of C222₁. Still more preferably, the LXR ligand binding domain polypeptide has the amino acid sequence shown in SEQ ID NO: 8. It is also preferable that the ligand is is 24(S), 25-epoxycholesterol and the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0017] A method for determining the three-dimensional structure of a crystallized LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide to a resolution of about 2.8 Å or better is disclosed. In a preferred embodiment, the method comprises: (a) crystallizing a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide to form a crystallized complex; and (b) analyzing the crystallized complex to determine the three-dimensional structure of the LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide, whereby the three-dimensional structure of a crystallized LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide is determined to a resolution of about 2.8 Å or better. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRCI polypeptide comprising the sequence of SEQ ID NO: 9.

[0018] A method of generating a crystalline form comprising a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide is disclosed. In a preferred embodiment, the method comprises: (a) incubating a solution comprising a LXR ligand binding domain and one or more of a ligand and a coactivator polypeptide with an equal volume of reservoir; and (b) crystallizing the LXR ligand binding domain polypeptide and one or more of a ligand and a coactivator polypeptide using the hanging drop method, whereby a crystalline form of a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide is generated. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0019] A method of designing a modulator of a NR polypeptide is disclosed. In a preferred embodiment, the method comprises: (a) designing a potential modulator of a NR polypeptide that will make interactions with amino acids in a ligand binding site of the NR polypeptide, based upon a crystalline structure comprising a LXR ligand binding domain polypeptide in complex with a one or more of a ligand and a coactivator polypeptide; (b) synthesizing the modulator; and (c) determining whether the potential modulator modulates the activity of the NR polypeptide, whereby a modulator of a NR polypeptide is designed. It is preferable that the NR comprises a LXR and more preferably a LXRβ comprising the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0020] In an alternative embodiment, a method of designing a modulator that selectively modulates the activity of a NR polypeptide in accordance with the present invention comprises: (a) obtaining a crystalline form comprising a LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coativator polypeptide; (b) evaluating the three-dimensional structure of the crystallized LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide; and (c) synthesizing a potential modulator based on the three-dimensional structure of the crystallized LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide, whereby a modulator that selectively modulates the activity of a NR polypeptide is designed. Preferably, the method further comprises contacting a NR ligand binding domain polypeptide with the potential modulator and one or more of a ligand and a coactivator polypeptide; and assaying the NR ligand binding domain polypeptide for binding of the potential modulator, for a change in activity of the NR ligand binding domain polypeptide, or both. In this embodiment, it is preferable that the NR comprises a LXR and more preferably a LXRβ comprising the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0021] A method of screening a plurality of compounds for a modulator of a NR ligand binding domain polypeptide is also disclosed. In a preferred embodiment, the method comprises: (a) providing a library of test samples; (b) contacting a crystalline form comprising a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide with each test sample; (c) detecting an interaction between a test sample and the crystalline LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide; (d) identifying a test sample that interacts with the crystalline LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide; and (e) isolating a test sample that interacts with the crystalline LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coregulator polypeptide, whereby a plurality of compounds is screened for a modulator of a NR ligand binding domain polypeptide. In this embodiment, it is preferable that the NR comprises a LXR and more preferably a LXRβ comprising the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRCI polypeptide comprising the sequence of SEQ ID NO: 9.

[0022] Additionally, a method for identifying a NR modulator is disclosed. IN a preferred embodiment, the method comprises: (a) providing atomic coordinates of a LXR ligand binding domain in complex with one or more of a ligand and a coactivator polypeptide to a computerized modeling system; and (b) modeling ligands that fit spatially into the binding pocket of the LXR ligand binding domain to thereby identify a NR modulator. Preferably the method further comprises identifying in an assay for NR-mediated activity a modeled ligand that increases or decreases the activity of the NR. In this embodiment, it is preferable that the NR comprises a LXR and more preferably a LXRβ comprising the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0023] In another embodiment of the present invention, a method of identifying a LXR modulator that selectively modulates the activity of a LXRβ polypeptide compared to other polypeptides is disclosed. In a preferred embodiment, the method comprises: (a) providing atomic coordinates of a LXRβ ligand binding domain in complex with one or more of a ligand and a coactivator polypeptide to a computerized modeling system; and (b) modeling a ligand that fits into the binding pocket of a LXRβ ligand binding domain and that interacts with residues of a LXRβ that are conserved among LXR subtypes to thereby identify a LXRβ modulator that selectively modulates the activity of a LXRβ polypeptide compared to other polypeptides. In this embodiment, it is preferable that the LXRβ comprises the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9. It is more preferable that the method further comprises identifying in a biological assay for LXRβ activity a modeled ligand that selectively binds to said LXRβ and increases or decreases the activity of said LXRβ.

[0024] In yet another embodiment, a method of designing a modulator of a NR polypeptide is disclosed. In a preferred embodiment, the method comprises: (a) selecting a candidate NR ligand; (b) determining which amino acid or amino acids of a NR polypeptide interact with the ligand using a three-dimensional model of a crystallized protein, the model comprising a LXRβ ligand binding domain in complex with one or more of a ligand and a coactivator polypeptide; (c) identifying in a biological assay for NR activity a degree to which the ligand modulates the activity of the NR polypeptide; (d) selecting a chemical modification of the ligand wherein the interaction between the amino acids of the NR polypeptide and the ligand is predicted to be modulated by the chemical modification; (e) synthesizing a ligand having the chemical modified to form a modified ligand; (f) contacting the modified ligand with the NR polypeptide; (g) identifying in a biological assay for NR activity a degree to which the modified ligand modulates the biological activity of the NR polypeptide; and (h) comparing the biological activity of the NR polypeptide in the presence of modified ligand with the biological activity of the NR polypeptide in the presence of the unmodified ligand, whereby a modulator of a NR polypeptide is designed. In this embodiment, it is preferable that the NR comprises a LXR and more preferably a LXRβ comprising the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9. It is additionally preferable that the the method further comprises repeating steps (a) through (f), if the biological activity of the NR polypeptide in the presence of the modified ligand varies from the biological activity of the NR polypeptide in the presence of the unmodified ligand.

[0025] Further, a method of identifying a LXR modulator that selectively modulates the biological activity of one LXR subtype compared to LXRβ is disclosed. In a preferred embodiment, the method comprises: (a) providing an atomic structure coordinate set describing a LXRβ ligand binding domain structure in complex with one or more of a ligand and a coactivator polypeptide and at least one other atomic structure coordinate set describing a LXR ligand binding domain, each ligand binding domain comprising a ligand binding site; (b) comparing the LXR atomic structure coordinate sets to identify at least one difference between the sets; (c) designing a candidate ligand predicted to interact with the difference of step (b); (d) synthesizing the candidate ligand; and (e) testing the synthesized candidate ligand for an ability to selectively modulate a LXR subtype as compared to LXRβ, whereby a LXR modulator that selectively modulates the biological activity of one LXR subtype compared to LXRβ is identified. In this embodiment, it is preferable that the LXR subtype whose biological activity is to be modulated is LXRβ and comprises the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0026] In another embodiment, a method of modeling a three-dimensional structure of a target NR in complex with one or more of a ligand and a coactivator polypeptide from a template comprising the X-ray structure of a LXR in complex with one or more of a ligand and a coactivator polypeptide is disclosed. In a preferred embodiment, the method comprises: (a) selecting an X-ray structure of a target NR LBD as a starting model for the target NR LBD; (b) manipulating the starting model for the target NR as a rigid body to superimpose its backbone atoms onto corresponding backbone atoms of a three-dimensional template structure comprising a LXR in complex with one or more of a ligand and a coactivator polypeptide to form a manipulated model; (c) making a copy of the coactivator peptide from the template structure to form a model of a coactivator polypeptide bound to a template LXR; (d) merging the model of the coactivator polypeptide into the manipulated model to form a modified model; (e) removing one or more amino acids from the modified model; and (f) optimizing side-chain conformations, whereby a three-dimensional structure of a target NR in complex with one or more of a ligand and a coactivator polypeptide is modeled from a template comprising the X-ray structure of an NR in complex with one or more of a ligand and a coactivator polypeptide. In this embodiment, it is preferable that the LXR template is LXRβ and comprises the sequence of SEQ ID NO: 4. It is also preferable that the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and that the coactivator polypeptide comprises a SRC1 polypeptide comprising the sequence of SEQ ID NO: 9.

[0027] Accordingly, it is an object of the present invention to provide a three dimensional structure of the ligand binding domain of an LXR in complex with one or more of a ligand and a coactivator polypeptide. The object is achieved in whole or in part by the present invention.

[0028] An object of the invention having been stated hereinabove, other objects will be evident as the description proceeds, when taken in connection with the accompanying Drawings and Laboratory Examples as best described hereinbelow.

BRIEF DESCRIPTION OF THE DRAWINGS

[0029]FIG. 1 is a ribbon diagram depicting the LXRβ/EPC/SRC1 dimer that formed during crystallization. LXR is gray, SRC1 is black, and EPC is light gray. The LXR dimer formed is the same in both compound complexes.

[0030]FIG. 2 is a ribbon diagram depicting an EPC molecule situated in the LXRβ binding pocket. EPC is a light gray ball and stick figure with darker oxygen atoms.

[0031]FIG. 3 is a diagram depicting residues that interact with EPC in the LXRβ binding pocket; EPC is drawn as a ball and stick figure with gray carbons and black oxygens and LXRβ is depicted as a wire frame model.

[0032]FIG. 4A is a ribbon diagram depicting the superimposition of Cα atoms of each member of the crystallized LXRβ dimer, as well as the superimposition of the ligand N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide, one molecule of which was associated with each of the LXRβ monomers. The A molecule is indicated with light ribbon, while the B molecule is indicated with darker ribbon.

[0033]FIG. 4B is a ribbon diagram depicting the position of the ligand N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide (T317) relative to helices 5, 7 and 11 of LXRβ. In this figure the superimposition of Cα atoms of each member of the crystallized LXRβ dimer, as well as a detailed view of the superimposition of the ligand, one molecule of which was associated with each of the LXRβ monomers is represented. The A molecules of both LXRβ and T317 are light colored, while the B molecules are darker.

[0034]FIG. 5 is a diagram depicting the superimposition of each LXR of the dimer (wire frame model) and the superimposition of the N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide (T317) molecule associated with each of the LXRs (ball and stick). The A molecules of LXRβ and T317 are light colored, while the B molecules are darker.

[0035]FIG. 6A is a ribbon diagram of the binding pocket of LXR demonstrating how the structure was used to identify amino acids specifically contacting EPC to design mutants. In this figure the EPC A ring extends beyond T317 and O3 and reaches into a polar pocket containing E281, E315, and R319.

[0036]FIG. 6B is a ribbon diagram of the binding pocket of LXR demonstrating how the structure was used to identify amino acids specifically contacting T317 to design mutants. In this figure the ligand T317 is shown to form a hydrogen bond with H435 and extends into a hydrophobic pocket along the beta turn containing 1327, F329, and Y335.

[0037]FIG. 7A is a bar graph depicting the effect of mutating LXR LBD pocket residues on transcriptional activity, which was determined by measuring the amount of SPAP synthesized in CV-1 cells by a transiently transfected Gal4 fusion of LXRα LBD.

[0038]FIG. 7B is a bar graph depicting the effect of mutating LXR LBD pocket residues on transcriptional activity, which was determined by measuring the amount of SPAP synthesized in CV-1 cells by a transiently transfected Gal4 fusion of LXRβ LBD.

BRIEF DESCRIPTION OF THE SEQUENCES IN THE SEQUENCE LISTING

[0039] SEQ ID NO: 1 is a DNA sequence encoding a full-length human LXRα polypeptide (Swiss-Prot Accession No. Q13133; GenBank Accession No. U22662).

[0040] SEQ ID NO: 2 is an amino acid sequence comprising a full-length human LXRα (Swiss-Prot Accession No. Q13133; GenBank Accession No. U22662).

[0041] SEQ ID NO: 3 is a DNA sequence encoding a full-length human LXRβ polypeptide (Swiss-Prot Accession No. P55055; GenBank Accession No. NM_(—)007121).

[0042] SEQ ID NO: 4 is an amino acid sequence comprising a full-length human LXRβ (Swiss-Prot Accession No. P55055; GenBank Accession No. NM_(—)007121).

[0043] SEQ ID NO: 5 is a DNA sequence encoding a human LXRα ligand binding domain polypeptide (Swiss-Prot Accession No. Q13133; GenBank Accession No. U22662).

[0044] SEQ ID NO: 6 is an amino acid sequence comprising a human LXRα ligand binding domain polypeptide (Swiss-Prot Accession No. Q13133; GenBank Accession No. U22662).

[0045] SEQ ID NO: 7 is a DNA sequence encoding a human LXRβ ligand binding domain polypeptide.

[0046] SEQ ID NO: 8 is an amino acid sequence comprising a human LXRβ ligand binding domain polypeptide.

[0047] SEQ ID NO: 9 is an amino acid sequence that comprises a fragment of the co-activator SRC1.

[0048] SEQ ID NO: 10 is an amino acid sequence of residues 182-419 of an RAR polypeptide that was employed in the molecular replacement solution of LXRβ.

DETAILED DESCRIPTION OF THE INVENTION

[0049] Until disclosure of the present invention presented herein, the ability to obtain crystalline forms of a LXRβ LBD has not been realized. And until disclosure of the present invention presented herein, a detailed three-dimensional crystal structure of a LXRβ polypeptide has not been solved.

[0050] In addition to providing structural information, crystalline polypeptides provide other advantages. For example, the crystallization process itself further purifies the polypeptide, and satisfies one of the classical criteria for homogeneity. In fact, crystallization frequently provides unparalleled purification quality, removing impurities that are not removed by other purification methods such as HPLC, dialysis, conventional column chromatography, etc. Moreover, crystalline polypeptides are often stable at ambient temperatures and free of protease contamination and other degradation associated with solution storage. Crystalline polypeptides can also be useful as pharmaceutical preparations. Finally, crystallization techniques in general are largely free of problems such as denaturation associated with other stabilization methods (e.g., lyophilization). Once crystallization has been accomplished, crystallographic data provides useful structural information that can assist the design of compounds that can serve as agonists or antagonists, as described herein below. In addition, the crystal structure provides information useful to map a receptor-binding domain, which could then be mimicked by a small non-peptide molecule that would serve as an antagonist or agonist.

[0051] I. Definitions

[0052] Following long-standing patent law convention, the terms “a” and “an” mean “one or more” when used in this application, including the claims.

[0053] As used herein, the term “mutation” carries its traditional connotation and means a change, inherited, naturally occurring or introduced, in a nucleic acid or polypeptide sequence, and is used in its sense as generally known to those of skill in the art.

[0054] As used herein, the term “labeled” means the attachment of a moiety, capable of detection by spectroscopic, radiologic or other methods, to a probe molecule.

[0055] As used herein, the term “target cell” refers to a cell, into which it is desired to insert a nucleic acid sequence or polypeptide, or to otherwise effect a modification from conditions known to be standard in the unmodified cell. A nucleic acid sequence introduced into a target cell can be of variable length. Additionally, a nucleic acid sequence can enter a target cell as a component of a plasmid or other vector or as a naked sequence.

[0056] As used herein, the term “transcription” means a cellular process involving the interaction of an RNA polymerase with a gene that directs the expression as RNA of the structural information present in the coding sequences of the gene. The process includes, but is not limited to the following steps: (a) the transcription initiation, (b) transcript elongation, (c) transcript splicing, (d) transcript capping, (e) transcript termination, (f) transcript polyadenylation, (g) nuclear export of the transcript, (h) transcript editing, and (i) stabilizing the transcript.

[0057] As used herein, the term “expression” generally refers to the cellular processes by which a polypeptide is produced from RNA.

[0058] As used herein, the term “transcription factor” means a cytoplasmic or nuclear protein which binds to a gene, or binds to an RNA transcript of a gene, or binds to another protein which binds to a gene or an RNA transcript or another protein which in turn binds to a gene or an RNA transcript, so as to thereby modulate expression of the gene. Such modulation can additionally be achieved by other mechanisms; the essence of a “transcription factor for a gene” pertains to a factor that alters the level of transcription of the gene in some way.

[0059] As used herein, the term “hybridization” means the binding of a probe molecule, a molecule to which a detectable moiety has been bound, to a target sample.

[0060] As used herein, the term “detecting” means confirming the presence of a target entity by observing the occurrence of a detectable signal, such as a radiologic or spectroscopic signal that will appear exclusively in the presence of the target entity.

[0061] As used herein, the term “sequencing” means determining the ordered linear sequence of nucleic acids or amino acids of a DNA or protein target sample, using conventional manual or automated laboratory techniques.

[0062] As used herein, the term “isolated” means oligonucleotides substantially free of other nucleic acids, proteins, lipids, carbohydrates or other materials with which they can be associated, such association being either in cellular material or in a synthesis medium. The term can also be applied to polypeptides, in which case the polypeptide will be substantially free of nucleic acids, carbohydrates, lipids and other undesired polypeptides.

[0063] As used herein, the term “substantially pure” means that the polynucleotide or polypeptide is substantially free of the sequences and molecules with which it is associated in its natural state, and those molecules used in the isolation procedure. The term “substantially free” means that the sample is at least 50%, preferably at least 70%, more preferably 80% and most preferably 90% free of the materials and compounds with which is it associated in nature.

[0064] As used herein, the term “primer” means a sequence comprising two or more deoxyribonucleotides or ribonucleotides, preferably more than three, and more preferably more than eight and most preferably at least about 20 nucleotides of an exonic or intronic region. Such oligonucleotides are preferably between ten and thirty bases in length.

[0065] As used herein, the term “DNA segment” means a DNA molecule that has been isolated free of total genomic DNA of a particular species. In a preferred embodiment, a DNA segment encoding a LXR polypeptide refers to a DNA segment that comprises SEQ ID NOs: 1, 3, 5, and 7, but can optionally comprise fewer or additional nucleic acids, yet is isolated away from, or purified free from, total genomic DNA of a source species, such as Homo sapiens. Included within the term “DNA segment” are DNA segments and smaller fragments of such segments, and also recombinant vectors, including, for example, plasmids, cosmids, phages, viruses, and the like.

[0066] As used herein, the phrase “enhancer-promoter” means a composite unit that contains both enhancer and promoter elements. An enhancer-promoter is operatively linked to a coding sequence that encodes at least one gene product.

[0067] As used herein, the phrase “operatively linked” means that an enhancer-promoter is connected to a coding sequence in such a way that the transcription of that coding sequence is controlled and regulated by that enhancer-promoter. Techniques for operatively linking an enhancer-promoter to a coding sequence are well known in the art; the precise orientation and location relative to a coding sequence of interest is dependent, inter alia, upon the specific nature of the enhancer-promoter.

[0068] As used herein, the terms “candidate substance” and “candidate compound” are used interchangeably and refer to a substance that is believed to interact with another moiety, for example a given ligand that is believed to interact with a complete, or a fragment of, a LXR polypeptide, and which can be subsequently evaluated for such an interaction. Representative candidate substances or compounds include “xenobiotics”, such as drugs and other therapeutic agents, carcinogens and environmental pollutants, natural products and extracts, as well as “endobiotics”, such as steroids, fatty acids and prostaglandins. Other examples of candidate compounds that can be investigated using the methods of the present invention include, but are not restricted to, agonists and antagonists of a LXR polypeptide, toxins and venoms, viral epitopes, hormones (e.g., opioid peptides, steroids, etc.), hormone receptors, peptides, enzymes, enzyme substrates, co-factors, lectins, sugars, oligonucleotides or nucleic acids, oligosaccharides, proteins, small molecules and monoclonal antibodies.

[0069] As used herein, the term “biological activity” means any observable effect flowing from interaction between a LXR polypeptide and a ligand. Representative, but non-limiting, examples of biological activity in the context of the present invention include dimerization of a LXR polypeptide and association of a LXR with a ligand, such as 24(S), 25-epoxycholesterol.

[0070] As used herein, the term “modified” means an alteration from an entity's normally occurring state. An entity can be modified by removing discrete chemical units or by adding discrete chemical units. The term “modified” encompasses detectable labels as well as those entities added as aids in purification.

[0071] As used herein, the terms “structure coordinates” and “structural coordinates” mean mathematical coordinates derived from mathematical equations related to the patterns obtained on diffraction of a monochromatic beam of X-rays by the atoms (scattering centers) of a molecule in crystal form. The diffraction data are used to calculate an electron density map of the repeating unit of the crystal. The electron density maps are used to establish the positions of the individual atoms within the unit cell of the crystal.

[0072] Those of skill in the art understand that a set of structure coordinates determined by X-ray crystallography is not without standard error. For the purpose of this invention, any set of structure coordinates for LXR or a LXR mutant that have a root mean square deviation (RMSD) from ideal of preferably no more than 1.5 Å, more preferably no more than 1.0 Å, and most preferably no more than 0.5 Å when superimposed, using the polypeptide backbone atoms, on the structure coordinates listed in Tables 2, and 3 shall be considered identical.

[0073] As used herein, the term “space group” means the arrangement of symmetry elements of a crystal.

[0074] As used herein, the term “molecular replacement” means a method that involves generating a preliminary model of the wild-type LXR ligand binding domain, or a LXR mutant crystal whose structure coordinates are unknown, by orienting and positioning a molecule whose structure coordinates are known within the unit cell of the unknown crystal so as best to account for the observed diffraction pattern of the unknown crystal. Phases can then be calculated from this model and combined with the observed amplitudes to give an approximate Fourier synthesis of the structure whose coordinates are unknown. This, in turn, can be subject to any of the several forms of refinement to provide a final, accurate structure of the unknown crystal. See, e.g., Lattman, (1985) Method Enzymol. 115: 55-77; Rossmann (ed.), (1972) The Molecular Replacement Method, Gordon & Breach, New York. Using the structure coordinates of a LXR ligand binding domain provided by the present invention, molecular replacement can be used to determine the structure coordinates of a crystalline mutant or homologue of a LXR ligand binding domain, or of a different crystal form of the LXR ligand binding domain.

[0075] As used herein, the term “isomorphous replacement” means a method of using heavy atom derivative crystals to obtain the phase information necessary to elucidate the three-dimensional structure of a native crystal (Blundell et al., (1976) Protein Crystallography, Academic Press; Otwinowski, (1991) in Isomorphous Replacement and Anomalous Scattering, (Evans & Leslie, eds.), 80-86, Daresbury Laboratory, Daresbury, United Kingdom). The phrase “heavy-atom derivatization” is synonymous with the term “isomorphous replacement.”

[0076] As used herein, the terms “β-sheet” and “beta-sheet” mean the conformation of a polypeptide chain stretched into an extended zig-zig conformation. Portions of polypeptide chains that run “parallel” all run in the same direction. Polypeptide chains that are “antiparallel” run in the opposite direction from the parallel chains.

[0077] As used herein, the terms “α-helix” and “alpha-helix” mean the conformation of a polypeptide chain wherein the polypeptide backbone is wound around the long axis of the molecule in a left-handed or right-handed direction, and the R groups of the amino acids protrude outward from the helical backbone, wherein the repeating unit of the structure is a single turnoff the helix, which extends about 0.56 nm along the long axis.

[0078] As used herein, the term “unit cell” means a basic parallelepiped shaped block. The entire volume of a crystal can be constructed by regular assembly of such blocks. Each unit cell comprises a complete representation of the unit of pattern, the repetition of which builds up the crystal. Thus, the term “unit cell” means the fundamental portion of a crystal structure that is repeated infinitely by translation in three dimensions. A unit cell is characterized by three vectors a, b, and c, not located in one plane, which form the edges of a parallelepiped. Angles α, β and γ define the angles between the vectors: angle α is the angle between vectors b and c; angle β is the angle between vectors a and c; and angle γ is the angle between vectors a and b. The entire volume of a crystal can be constructed by regular assembly of unit cells; each unit cell comprises a complete representation of the unit of pattern, the repetition of which builds up the crystal.

[0079] As used herein, the term “orthogonal unit cell” means a unit cell wherein a≠b≠c; and α=β=γ=90°. The vectors a, b and c describe the unit cell edges and the angles α, β, and γ describe the unit cell angles.

[0080] As used herein, the term “crystal lattice” means the array of points defined by the vertices of packed unit cells.

[0081] As used herein, the term “ligand binding site” and “ligand binding domain” are used interchangeably and mean that site in a polypeptide where substrate binding occurs. For human LXRβ, the ligand binding domain comprises the residues 214-462 of the full-length human LXRβ protein.

[0082] As used herein, the term “LXR” means nucleic acids encoding a liver X receptor (LXR) nuclear receptor polypeptide that can bind DNA and/or one or more ligands, and/or has the ability to form multimers. The term “LXR” includes invertebrate homologs; however, preferably, LXR nucleic acids and polypeptides are isolated from vertebrate sources. “LXR” further includes vertebrate homologs of LXR family members, including, but not limited to, mammalian and avian homologs. Representative mammalian homologs of LXR family members include, but are not limited to, murine and human homologs.

[0083] As used herein, the terms “LXR gene product”, “LXR protein”, “LXR polypeptide”, and “LXR peptide” are used interchangeably and mean peptides having amino acid sequences which are substantially identical to native amino acid sequences from an organism of interest and which are biologically active in that they comprise all or a part of the amino acid sequence of a LXR polypeptide, or cross-react with antibodies raised against a LXR polypeptide, or retain all or some of the biological activity (e.g., DNA or ligand binding ability and/or dimerization ability) of the native amino acid sequence or protein. Such biological activity can include immunogenicity.

[0084] As used herein, the terms “LXR gene product”, “LXR protein”, “LXR polypeptide”, and “LXR peptide” also include analogs of a LXR polypeptide. By “analog” is intended that a DNA or peptide sequence can contain alterations relative to the sequences disclosed herein, yet retain all or some of the biological activity of those sequences. Analogs can be derived from genomic nucleotide sequences as are disclosed herein or from other organisms, or can be created synthetically. Those skilled in the art will appreciate that other analogs, as yet undisclosed or undiscovered, can be used to design and/or construct LXR analogs. There is no need for a “LXR gene product”, “LXR protein”, “LXR polypeptide”, or “LXR peptide” to comprise all or substantially all of the amino acid sequence of a LXR polypeptide gene product. Shorter or longer sequences are anticipated to be of use in the invention; shorter sequences are herein referred to as “segments”. Thus, the terms “LXR gene product”, “LXR protein”, “LXR polypeptide”, and “LXR peptide” also include fusion, chimeric or recombinant LXR polypeptides and proteins comprising sequences of the present invention. Methods of preparing such proteins are disclosed herein and are known in the art.

[0085] As used herein, the term “polypeptide” means any polymer comprising any of the 20 protein amino acids, regardless of its size. Although “protein” is often used in reference to relatively large polypeptides, and “peptide” is often used in reference to small polypeptides, usage of these terms in the art overlaps and varies. The term “polypeptide” as used herein refers to peptides, polypeptides and proteins, unless otherwise noted. As used herein, the terms “protein”, “polypeptide” and “peptide” are used interchangeably herein when referring to a gene product.

[0086] As used herein, the term “modulate” means an increase, decrease, or other alteration of any, or all, chemical and biological activities or properties of a wild-type or mutant LXR polypeptide. The term “modulation” as used herein refers to both upregulation (i.e., activation or stimulation) and downregulation (i.e. inhibition or suppression) of a response.

[0087] As used herein, the terms “LXR gene” and “recombinant LXR gene” mean a nucleic acid molecule comprising an open reading frame encoding a LXR polypeptide of the present invention, including both exon and (optionally) intron sequences.

[0088] As used herein, the term “gene” is used for simplicity to refer to a functional protein, polypeptide or peptide encoding unit. As will be understood by those in the art, this functional term includes both genomic sequences and cDNA sequences. Preferred embodiments of genomic and cDNA sequences are disclosed herein.

[0089] As used herein, the term “DNA sequence encoding a LXR polypeptide” can refer to one or more coding sequences within a particular individual. Moreover, certain differences in nucleotide sequences can exist between individual organisms, which are called alleles. It is possible that such allelic differences might or might not result in differences in amino acid sequence of the encoded polypeptide yet still encode a protein with the same biological activity. As is well known, genes for a particular polypeptide can exist in single or multiple copies within the genome of an individual. Such duplicate genes can be identical or can have certain modifications, including nucleotide substitutions, additions or deletions, all of which still code for polypeptides having substantially the same activity.

[0090] As used herein, the term “intron” means a DNA sequence present in a given gene that is not translated into protein.

[0091] As used herein, the term “interact” means detectable interactions between molecules, such as can be detected using, for example, a yeast two hybrid assay. The term “interact” is also meant to include “binding” interactions between molecules. Interactions can, for example, be protein-protein or protein-nucleic acid in nature.

[0092] As used herein, the terms “cells,” “host cells” or “recombinant host cells” are used interchangeably and mean not only to the particular subject cell, but also to the progeny or potential progeny of such a cell. Because certain modifications can occur in succeeding generations due to either mutation or environmental influences, such progeny might not, in fact, be identical to the parent cell, but are still included within the scope of the term as used herein.

[0093] As used herein, the term “agonist” means an agent that supplements or potentiates the bioactivity of a functional LXR gene or protein, of a polypeptide encoded by a gene that is up- or down-regulated by a LXR polypeptide, and/or a polypeptide encoded by a gene that contains a LXR binding site in its promoter region.

[0094] As used herein, the term “antagonist” means an agent that decreases or inhibits the bioactivity of a functional LXR gene or protein, or that supplements or potentiates the bioactivity of a naturally occurring or engineered non-functional LXR gene or protein. Alternatively, an antagonist can decrease or inhibit the bioactivity of a functional gene or polypeptide encoded by a gene that is up- or down-regulated by a LXR polypeptide and/or contains a LXR binding site in its promoter region. An antagonist can also supplement or potentiate the bioactivity of a naturally occurring or engineered non-functional gene or polypeptide encoded by a gene that is up- or down-regulated by a LXR polypeptide, and/or contains a LXR binding site in its promoter region.

[0095] As used herein, the terms “chimeric protein” or “fusion protein” are used interchangeably and mean a fusion of a first amino acid sequence encoding a LXR polypeptide with a second amino acid sequence defining a polypeptide domain foreign to, and not homologous with, any domain of one of a LXR polypeptide. A chimeric protein can present a foreign domain that is found in an organism that also expresses the first protein, or it can be an “interspecies” or “intergenic” fusion of protein structures expressed by different kinds of organisms. In general, a fusion protein can be represented by the general formula X—LXR—Y, wherein LXR represents a portion of the protein which is derived from a LXR polypeptide, and X and Y are independently absent or represent amino acid sequences which are not related to a LXR sequence in an organism, which includes naturally occurring mutants. The term “chimeric gene” refers to a nucleic acid construct that encodes a “chimeric protein” or “fusion protein” as defined herein.

[0096] As used herein, the term “therapeutic agent” is a chemical entity intended to effectuate a change in an organism. Preferably, but not necessarily, the organism is a human being. It is not necessary that a therapeutic agent be known to effectuate a change in an organism; chemical entities that are suspected, predicted or designed to effectuate a change in an organism are therefore encompassed by the term “therapeutic agent.” The effectuated change can be of any kind, observable or unobservable, and can include, for example, a change in the biological activity of a protein.

[0097] Representative therapeutic compounds include small molecules, proteins and peptides, oligonucleotides of any length, “xenobiotics”, such as drugs and other therapeutic agents, carcinogens and environmental pollutants, natural products and extracts, as well as “endobiotics”, such as epoxycholesterols. Other examples of therapeutic agents can include, but are not restricted to, agonists and antagonists of a LXR polypeptide, toxins and venoms, viral epitopes, hormones (e.g., opioid peptides, steroids, etc.), hormone receptors, peptides, enzymes, enzyme substrates, co-factors, lectins, sugars, oligonucleotides or nucleic acids, oligosaccharides, proteins, small molecules and monoclonal antibodies.

[0098] II. Description of Tables

[0099] Table 1 is a table summarizing the crystal and data statistics obtained from the crystallized ligand binding domain of human LXR. Data on the unit cell are presented, including data on the crystal space group, unit cell dimensions, molecules per asymmetric cell and crystal resolution.

[0100] Table 2 is a table presenting the atomic coordinate data for crystallized LXRβ LBD in complex with EPC and a SRC1 peptide.

[0101] Table 3 is a table presenting the atomic coordinate data for crystallized LXRβ LBD in complex with N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide.

[0102] Table 4 is a table presenting the atomic coordinate data for human RARγ employed in the molecular replacement solution of human LXRβ ligand binding domain crystals.

[0103] III. General Considerations

[0104] The present invention will usually be applicable mutatis mutandis to all LXR polypeptides, as discussed herein, based, in part, on the patterns of LXR structure and modulation that have emerged as a consequence of determining a preferred three dimensional structure, human LXR in complex with a ligand. Generally speaking, LXR homologs and orthologs display substantial regions of amino acid homology. Additionally, the LXRs display an overall structural motif comprising three modular domains:

[0105] 1) a variable amino-terminal domain;

[0106] 2) a highly conserved DNA-binding domain (DBD); and

[0107] 3) a less conserved carboxy-terminal ligand binding domain (LBD).

[0108] The modularity of LXR permits different domains of each protein to separately accomplish different functions, although the domains can influence each other. The separate function of a domain is usually preserved when a particular domain is isolated from the remainder of the protein. Using conventional protein chemistry techniques, a modular domain can sometimes be separated from the parent protein. Using conventional molecular biology techniques, each domain can usually be separately expressed with its original function intact or, as discussed herein below, chimeric proteins comprising two different proteins can be constructed, wherein the chimeric proteins retain the properties of the individual functional domains of the respective polypeptides from which the chimeric proteins were generated.

[0109] The amino terminal domain of LXR is the least conserved of the three domains. This domain is involved in transcriptional activation and, in some cases, its uniqueness can dictate selective receptor-DNA binding and activation of target genes by LXR.

[0110] The DBD is the most conserved structure in LXR. It typically contains about 70 amino acids that fold into two zinc finger motifs, wherein a zinc ion coordinates four cysteines. The DBD generally contains two perpendicularly oriented α-helices that extend from the base of the first and second zinc fingers. The two zinc fingers function in concert along with non-zinc finger residues to direct the LXRs to specific target sites on DNA. Various amino acids in the DBD influence spacing between two half-sites (which usually comprises six nucleotides) for receptor homodimerization. The optimal spacings facilitate cooperative interactions between DBDs, and D box residues are part of the dimerization interface. Other regions of the DBD facilitate DNA-protein and protein-protein interactions required for LXR homodimerization.

[0111] The LBD is the second most highly conserved domain in these receptors. Whereas the integrity of several different LBD sub-domains is important for ligand binding, truncated molecules containing only the LBD can retain normal ligand binding activity. This domain also participates in other functions, including dimerization, nuclear translocation and transcriptional regulation activities. Importantly, this domain can bind a ligand and can undergo ligand-induced conformational changes. Ligand binding allows the activation domain to serve as an interaction site for essential co-activator proteins that function to stimulate or inhibit transcription.

[0112] The carboxy-terminal activation subdomain is in close three-dimensional proximity in the LBD to the ligand, so as to allow for ligands bound to the LBD to coordinate (or interact) with amino acid(s) in the activation subdomain. As disclosed herein, the LBD of LXR is expressed, crystallized and its three dimensional structure determined. Computational and other methods for the design of ligands to the LBD are also disclosed.

[0113] IV. Production of LXR Polypeptides

[0114] The native and mutated LXR polypeptides, and fragments thereof, of the present invention can be chemically synthesized in whole or part using techniques that are well-known in the art (See, e.g., Creighton, (1983) Proteins: Structures and Molecular Principles, W. H. Freeman & Co., New York, incorporated herein in its entirety). Alternatively, methods that are well known to those skilled in the art can be used to construct expression vectors containing a partial or the entire native or mutated LXR polypeptide coding sequence and appropriate transcriptional/translational control signals. These methods include in vitro recombinant DNA techniques, synthetic techniques and in vivo recombination/genetic recombination. See, for example, the techniques described in Sambrook et al., (1989) Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory, New York, and Ausubel et al., (1989) Current Protocols in Molecular Biology, Greene Publishing Associates and Wiley Interscience, New York, both incorporated herein in their entirety.

[0115] A variety of host-expression vector systems can be utilized to express a LXR coding sequence. These include but are not limited to microorganisms such as bacteria transformed with recombinant bacteriophage DNA, plasmid DNA or cosmid DNA expression vectors containing a LXR coding sequence; yeast transformed with recombinant yeast expression vectors containing a LXR coding sequence; insect cell systems infected with recombinant virus expression vectors (e.g., baculovirus) containing a LXR coding sequence; plant cell systems infected with recombinant virus expression vectors (e.g., cauliflower mosaic virus, CaMV; tobacco mosaic virus, TMV) or transformed with recombinant plasmid expression vectors (e.g., Ti plasmid) containing a LXR coding sequence; or animal cell systems. The expression elements of these systems vary in their strength and specificities.

[0116] Depending on the host/vector system utilized, any of a number of suitable transcription and translation elements, including constitutive and inducible promoters, can be used in the expression vector. For example, when cloning in bacterial systems, inducible promoters such as pL of bacteriophage λ, plac, ptrp, ptac (ptrp-lac hybrid promoter) and the like can be used. When cloning in insect cell systems, promoters such as the baculovirus polyhedrin promoter can be used. When cloning in plant cell systems, promoters derived from the genome of plant cells, such as heat shock promoters; the promoter for the small subunit of RUBISCO; the promoter for the chlorophyll a/b binding protein) or from plant viruses (e.g., the 35S RNA promoter of CaMV; the coat protein promoter of TMV) can be used. When cloning in mammalian cell systems, promoters derived from the genome of mammalian cells (e.g., metallothionein promoter) or from mammalian viruses (e.g., the adenovirus late promoter; the vaccinia virus 7.5K promoter) can be employed. When generating cell lines that contain multiple copies of the tyrosine kinase domain DNA, SV40-, BPV- and EBV-based vectors can be used with an appropriate selectable marker.

[0117] V. Formation of LXR Ligand Binding Domain Crystals

[0118] In one embodiment, the present invention provides crystals of LXR. The crystals were obtained using the methodology disclosed in the Laboratory Examples. The LXR crystals, which can be native crystals, derivative crystals or co-crystals, have orthorhombic unit cells (an orthorhombic unit cell is a unit cell wherein a≠b≠c, and wherein α=β=γ90°) and space group symmetry of P2₁2₁2₁ in one embodiment and C222₁ in another embodiment. There are two LXR molecules in the asymmetric unit related by a non-crystallographic dyad. In one LXR crystalline form, the unit cell has dimensions of a=60.25 Å, b=82.454 Å, c=123.175 Å, and α=β=γ=90°. In another LXR crystalline form, the unit cell has dimensions of a=71.166 A, b=120.012 Å, c=147.56 Å, and α=β=γ=90°.

[0119] The structure of the N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide-bound form of LXR was solved by molecular replacement using the structure of the human retinoic acid receptor γ (RARγ) as a search model (Table 4) (Renaud et al., (1995) Nature 378: 681-689; PDB ID No; 2LBD, coordinates available online at http://www.rcsb.org/pd b/). The N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl ]-benzenesulfonamide-bound form was refined to a resolution of about 2.3 Å. The structure of the EPC-bound form of LXR was solved by molecular replacement using the refined LXR subunit from the N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide-bound form as a search model. The EPC-bound form was refined to a resolution of about 2.8 Å.

[0120] The heavy atom derivatized form of the LXR LBD-ligand structure can be solved using single isomorphous replacement anomalous scattering (SIRAS) techniques and/or multiwavelength anomalous diffraction (MAD) techniques. In the SIRAS method of solving protein crystals, a derivative crystal is prepared that contains an atom that is heavier than the other atoms of the sample. Heavy atom derivative crystals are commonly prepared by soaking a crystal in a solution containing a selected heavy atom salt. For example, some heavy atom derivative crystals have been prepared by soaking a crystalline form of the protein of interest in a solution of methyl mercury chloride (MeHgCl). Another representative heavy atom that can be incorporated into a derivative crystal is iodine. Heavy atoms can associate with the protein of interest, or can be localized in a ligand that associates with a protein of interest.

[0121] Analysis of derivative crystals takes advantage of differences in the reflections from the derivative crystal as compared to the underivatized crystal. Symmetry-related reflections in the X-ray diffraction pattern, which are usually identical, are altered by the anomalous scattering contribution of the heavy atoms. The measured differences in symmetry-related reflections are used to determine the position of the heavy atoms, leading to an initial estimation of the diffraction phases, and subsequently, an electron density map is prepared. The prepared electron density map is then used to identify the position of the other atoms in the sample.

[0122] V.A. Preparation of LXR Crystals

[0123] The native and derivative co-crystals, and fragments thereof, disclosed in the present invention can be obtained by a variety of techniques, including batch, liquid bridge, dialysis, vapor diffusion and hanging drop methods (See, e.g., McPherson, (1982) Preparation and Analysis of Protein Crystals, John Wiley, New York; McPherson, (1990) Eur. J. Biochem. 189:1-23; Weber, (1991) Adv. Protein Chem. 41:1-36). In a preferred embodiment, the vapor diffusion and hanging drop methods are used for the crystallization of LXR polypeptides and fragments thereof.

[0124] In general, native crystals of the present invention are grown by dissolving substantially pure LXR LBD polypeptide or a fragment thereof in an aqueous buffer containing a precipitant at a concentration just below that necessary to precipitate the protein. Water is removed by controlled evaporation to produce precipitating conditions, which are maintained until crystal growth ceases.

[0125] In a preferred embodiment of the invention, native crystals are grown by the hanging drop method (See, e.g., McPherson, (1982) Preparation and Analysis of Protein Crystals, John Wiley, New York; McPherson, (1990) Eur. J. Biochem. 189:1-23). In this method, the polypeptide/precipitant solution is allowed to equilibrate in a closed container with a larger aqueous reservoir having a precipitant concentration optimal for producing crystals. Generally, less than about 25 μL of LXR LBD polypeptide solution is mixed with an equal volume of reservoir solution, giving a precipitant concentration about half that required for crystallization. This solution is suspended as a droplet underneath a coverslip, which is sealed onto the top of the reservoir. The sealed container is allowed to stand, until crystals grow. Crystals generally form within two to six weeks, and are suitable for data collection within approximately seven to ten weeks. Of course, those of skill in the art will recognize that the above-described crystallization procedures and conditions can be varied.

[0126] V.B. Preparation of Derivative Crystals

[0127] Derivative crystals of the present invention, e.g. heavy atom derivative crystals, can be obtained by soaking native crystals in mother liquor containing salts of heavy metal atoms. Alternatively, a ligand comprising a heavy atom can be associated with a protein, and subsequently co-crystallized. Such derivative crystals are useful for phase analysis in the solution of crystals of the present invention. This mechanism provides derivative crystals suitable for use as isomorphous replacements in determining the X-ray crystal structure of a LXR polypeptide. Additional reagents useful for the preparation of the derivative crystals of the present invention will be apparent to those of skill in the art after review of the disclosure of the present invention presented herein.

[0128] V.C. Preparation of Co-Crystals

[0129] Co-crystals of the present invention can be obtained by soaking a native crystal in mother liquor containing compounds known or predicted to bind the LBD of a LXR, or a fragment thereof. Alternatively, co-crystals can be obtained by co-crystallizing a LXR LBD polypeptide or a fragment thereof in the presence of one or more compounds known or predicted to bind the polypeptide. In a preferred embodiment of the present invention, for example, the ligand N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide is co-crystallized with LXR. In another embodiment, an epoxycholesterol is co-crystallyzed with LXR and a peptide derived from a steroid receptor coactivator (SRC).

[0130] V.D. Solving a Crystal Structure of the Present Invention

[0131] Crystal structures of the present invention can be solved using a variety of techniques including, but not limited to, isomorphous replacement anomalous scattering or molecular replacement methods. Computer software packages will also be helpful in solving a crystal structure of the present invention. Applicable software packages include but are not limited to AmoRe (Navaza & Saludjian, (1997) Method Enzymol. 276A: 581-94; AmoRe is available on the internet at various sites, such as ftp:/ftp.informatik.uni-kiel.de/pub/kiel/amore), X-PLOR™ program (Brünger, (1992) X-PLOR, Version 3.1. A System for X-ray Crystallography and NMR, Yale University Press, New Haven, Conn.; X-PLOR is available from Molecular Simulations, Inc., San Diego, Calif.), Xtal View (McRee, (1992) J. Mol. Graphics 10: 44-47; X-tal View is available from the San Diego Supercomputer Center), SHELXS 97 (Sheldrick (1990) Acta Cryst. A 46: 467; SHELX 97 is available from the Institute of Inorganic Chemistry, Georg-August-Universität, Göttingen, Germany), HEAVY (Terwilliger, Los Alamos National Laboratory) can be used and SHAKE-AND-BAKE (Hauptman, (1997) Curr. Opin. Struct. Biol. 7: 672-80; Weeks et al., (1993) Acta Cryst. D 49: 179; available from the Hauptman-Woodward Medical Research Institute, Buffalo, N.Y.). See also, Ducruix & Geige, (1992) Crystallization of Nucleic Acids and Proteins: A Practical Approach, IRL Press, Oxford, England, and references cited therein.

[0132] VI. Summary of Results for the LXR Ligand binding Domain

[0133] Three structures of the LBD of human LXR are disclosed in the present invention. First, a 2.3 Å stucture in complex with the ligand N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide is disclosed, second, a 2.8 Å structure in complex with an epoxycholesterol and a SRC pepide is disclosed.

[0134] The crystal structures of the present invention disclose important insights into how human LXR binds ligands and thus, can be useful in designing LXR ligands, including activators and inhibitors. These structures reveal that although LXR has a well defined hydrophobic pocket, the binding modes of different compounds can differ radically. A hydrogen bond with histidine 435 was found to be the only conserved polar interaction. Also, the structures revealed that filling the volume of the pocket was not necessary nor sufficient for activation of LXR.

[0135] VI.A. Overall Structure of the Human LXR Ligand Binding Domain

[0136] The LXRβ LBD had the same three-layered α-helical fold seen for other nuclear receptors (see FIG. 1). In all complex structures, the asymmetric unit contains a LXRβ homodimer, with the T317 complex and the EPC/SRC1(2) complex containing two holo molecules. Although the non-crystallographic molecules are identical sequentially, the marked structural differences observed are most likely due to crystal packing forces. The dimer interface is composed of residues in helices 7, 9, 10 and 11, as seen in other homo and heterodimer interfaces. Each homodimer comprises A and B subunits.

[0137] To understand the degree of flexibility in the LXRβ LBD, the deviation in Cα atoms in the LBD core region, comprising helices 3 to 11 was compared. The two most similar molecules were those binding EPC with the SRC peptide, having an average deviation of Cα atoms of 0.43 A RMSD. The two molecules binding the N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide compound, with an average deviation of Cα atoms of 0.6 A RMSD. Those molecules binding EPC differ from those binding the N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide compound by an average deviation of 0.65 A RMSD. In all cases, the Cα positional variance between structures increased proportionally with the distance of the residue from the homodimer interface.

[0138] The most distinguishing features of the canonical LXRβ structure are a large helix 1 (˜18 residues) and a relatively large pocket (833 Å³) compared with previously solved steroid receptors. This large binding pocket is consistent with the larger size of oxy-cholesterol derivatives compared to the sex steroids.

[0139] VI.B. The LXRβ/epoxycholesterol Complex

[0140] LXRβ with bound EPC crystallized as a dimer (see FIG. 1), with the same dimer interface seen with other nuclear receptors with EPC filling most of the pocket. The binding of EPC to LXRβ differs significantly from bound steroids observed in previously solved nuclear receptors (Brzozowski et al., (1997) Nature 389:753-758; Williams & Sigler, (1998) Nature 393:392-396; Matias et al., (2000) J. Biol. Chem. 275:26164-2617). Like other steroid receptors, EPC bound to LXRβ with the steroid A-ring oriented towards helices 3 and 4, and the D-ring and tail pointing towards helix 11 and the AF2. Although the steroid cores of progesterone, estradiol, and testosterone overlap almost perfectly when the corresponding nuclear receptor's Cα atoms are superimposed, the steroid core of EPC did not overlap that of the sex steroids when the Cα atoms of LXRβ were superimposed on those receptors. Additionally, the steroid core of EPC is flipped 180° around its long axis, so that the EPC angular methyls pointed in the opposite direction from those of other steroids, like progesterone (see FIG. 2).

[0141] The binding site for EPC was almost exclusively hydrophobic, with the only hydrophilic interaction at the end of the pocket near the A-ring ketone oxygen (O3) where LXR and the EPC O3 form a network of interactions. The O3 of EPC is positioned in a polar pocket containing Glu281, Glu315, and Arg319. The side chains of Phe 243 and Phe329 packed against the hydrophobic A ring of EPC, and pushed it against the Cp and Cy of Glu315. The steric interaction between EPC and Glu315 positioned the acid group to form a salt bridge with Arg319. This salt bridge gave Arg319 the proper orientation to form the hydrogen bond with O3 of EPC (2.6 Å). The orientation of the Glu315 acid head group was fixed by a hydrogen bond with Arg318 which was fixed to Arg319 by the peptide bond.

[0142] There is a steric interaction between the side chain of Trp457 and the EPC 24(S), 25 epoxide group. The epoxide oxygen is ˜3.2 Å from two carbons in the six-member ring of the Trp457 indole. The Trp457 indole is oriented such that the nitrogen atom is pointed away from EPC, making it impossible to form a direct hydrogen bond with the epoxide oxygen (Spencer et al., (2001) J. Med. Chem. 44: 886-897). However, the EPC epoxide oxygen is positioned to form a weak hydrogen bond with His435 (3.4 Å), explaining why a correctly positioned oxygen atom is required distal to EPC C22 to activate LXR. The interaction with the epoxide oxygen orients the His435 imidazole basic nitrogen away from the Trp457 indole, providing a hydrophobic surface for the side chain top pack against. It is possible that this indirect interaction is responsible for the Trp457 requirement observed previously, a smaller side chain cannot pack against His435. The position of the AF2 helix was stabilized by the presence of SRC located in the co-activator grove.

[0143] All residues in LXRβ lining the binding pocket that are within 5 Å of the epoxycholesterol molecule include: Asn239 and Phe243 in helix 1; Phe 268, Phe271, Thr272, Leu274, Ala275, Ser278, and Glu281 in helix 3; Ile309, Met312, Leu313, Glu315, Thr316 and Arg319 in helix4/5; Phe329 in the beta turn; Phe340 in helix 6; Leu345, Phe349, and Ile353 in helix 7; His435, Gln438, Val439, and Leu442 in helix 11, Leu449, Leu453, and Trp457 in the AF2 helix. There were several areas of unoccupied space in the binding pocket adjacent to the EPC C and D rings, proximal to Met312 and Thr316, and proximal to Ile327 and Phe340.

[0144] VI.C. The LXRβ/T317 Complex

[0145] The structure of the complex of LXRβ with compound T317 yielded two distinct LXRβ conformations, with T317 adopting both syn and gauche conformations within the relatively large binding pocket (FIGS. 4 and 5). These multiple conformations were likely present because of a combination of crystal packing forces and a low rotational energy barrier around the compound's S—N bond. When corresponding Cα atoms were superimposed, both LXRβ molecules had nearly identical conformations surrounding the hexafluoroisopropyl moiety. This part of the receptor, which comprises helices 7 through 11, also displayed the greatest degree of conservation between the two molecules in the EPC structure, presumably because the homodimer interface forced a local dyad symmetry. The only polar interaction observed was a hydrogen bond between the hexafluoro-isopropyl oxygen atom and the His435 imidazole nitrogen. This interaction was present in both copies of the molecule and is probably responsible for the tight binding and activation by this compound.

[0146] Interacting residues whose side chain conformations are conserved between the two molecules include Phe271, Thr272, Ile309, Leu345, Phe349, His435, Gln438, Val439, Leu442, Leu449, Leu453, and Trp457. Other residues that interact with both conformations of T317 include Leu274, Ala275, Ser278, Met312, Leu313, Thr316, and Ile353. Residues that interact with the gauche conformation (A molecule) but not the syn are in the beta-turn region and include Ile327, Thr328, and Phe329. This conformation of T317 fills the pocket seen in the LXRβ/EPC complex. Residues that interact with the syn conformation (B molecule) but not the gauche include residues in helices 3 and 4 that interact with the EPC A-ring, and include Phe268, Glu281, Glu315, Tyr335, and Phe340. Neither copy of T317 filled the LXRb pocket, both left significant voids in different regions of the pocket.

[0147] VI.D. Mutational Analysis of LXR Ligand Interactions

[0148] The structures of the complex of LXRβ with bound T317 and EPC revealed strikingly different protein/ligand interactions. To explore these differences, site directed mutants were made targeting specific pocket residues that interacted more directly with one compound than the other. FIG. 6A indicates that both T317 and EPC hydrogen bond with H435 (H421α). However, the gauche conformation of I317 extended into a pocket near the beta turn. This observation suggests that mutations of I327 (I313α), F329 (F315α), and Y335 (Y321α) that close off the pocket might be used to test whether this region is significant for compound binding. By contrast, O3 of EPC extended into a hydrophilic pocket (see FIG. 6B) which includes residues E281 (E267α), E315 (E301α), and R319 (R305α). Mutations in this region permit identification of the necessary polar interactions for EPC binding. The transactivation capability of gal4-fusions of wild-type and mutant LXRα and LXRβ LBDs were measured by their ability to transcribe secreted placental alkaline phosphatase (SPAP) on a UAS-tk promoter in transient transfection experiments in CV-1 cells. See Laboratory Example 4. FIGS. 7A and 7B show the effects of these mutations on the transcriptional activity of LXR. As expected, only the H435A (H421Acc) mutation completely knocked out the activity of T317, with some modulation by the Y335W mutation. Although most mutations decreased EPC activity, removing R319 (R306α) and H435 (H421α) completely abolished LXR activation, in accordance with the structure. These data agree with the structure in suggesting that the conserved arginine R319 (R305α) is the critical residue for organizing the polar interactions around EPC O3. Also in accordance with the structure, adding bulk to F329 (F329W) sterically inhibited EPC binding while decreasing bulk (F329L) did not. Although the mutational data from both LXR subtypes is similar, mutations in LXRα appear to have a greater impact than mutations in LXRβ, suggesting that the pocket is tighter.

[0149] VI.E. The Pharmacology of Oxysterols

[0150] From previous structure activity relationship studies performed on oxysterol activation of LXRα, Trp443 was found to be essential for activation. This residue is equivalent to to the Trp457 residue of LXRβ (Spencer et al., (2001) J. Med. Chem. 44:886-897). These studies also concluded that a hydrogen-bonding group on the oxysterol C24 was essential for activation. The structure of LXRβ in complex with EPC makes it clear why the tryptophan is essential, and why the epoxide group is required for activation. The conserved hydrogen bond with His435 seen in both complexes underscores its importance for activation. Only oxysterols able to make this hydrogen bond can orient H435 to form a hydrophobic complementary surface for W457, allowing the AF2 helix to pack appropriately. Smaller residues than a Trp will not interact with H435, so the hydrogen bond between the histidine and the oxysterol will not be strong enough. The structure also suggests that oxysterols without the hydrogen bonding group, like cholesterol, should bind to LXR, but will not activate transcription through the AF2. Newer binding data suggests that cholesterol and other oxysterols do bind to LXR but do not recruit co-activator, an observation that would not detected in those previous studies because it was not looked for. This property of the oxysterols is especially relevant to drug discovery efforts, since many compounds also bind tightly but do not activate LXR.

[0151] VI.F. Essential Contacts for Ligand Binding

[0152] In all four holo molecules, the ligand made contacts with residues in helices 3, 4, 5, the beta-turn, helix 11, and the AF2 helix, and was oriented in the same pocket observed for other nuclear receptors. In general, the protein ligand interface was dominated by hydrophobic contacts. The interaction with His435 is conserved in all three liganded molecules, suggesting that interactions with this residue is necessary for LXR activation, but could be different for the two different classes of ligand. This result agrees with earlier mutagenesis data, which showed that LXRα Trp443 (Trp457β) was essential for activation by oxysterols, but not by T317. The other polar residue essential for oxysterol binding was R319, with F329 required to position the oxysterol A-ring. However, in light of the tight and efficacious nature of T317, interaction with these residues is neither necessary nor sufficient for LXR activation.

[0153] Another interesting feature of the LXR/T317 complex is that the ligand does not fill the pocket. Indeed, there is enough room in the pocket for T317 to adopt multiple conformations, yet the compound bound tightly and was efficacious. Thus, although it is not applicants' desire to be bound by any theory of operation, the structures of T317 and EPC, combined with the binding data on oxysterols, imply that filling the LXR binding pocket is neither necessary nor sufficient for activation.

[0154] VI.G. Generation of Easily-Solved LXR Crystals

[0155] The present invention discloses a substantially pure LXR LBD polypeptide in crystalline form. In preferred embodiments, exemplified in the Figures and Laboratory Examples, LXR is crystallized with bound ligand(s). Crystals are formed from LXR LBD polypeptides that are usually expressed by a cell culture, such as E. coli. Bromo-, iodo- and substitutions can be included during the preparation of crystal forms and can act as heavy atom substitutions in LXR ligands and in crystals of LXR and the LXR LBD. This method can be advantageous for the phasing of the crystal, which is a crucial, and sometimes limiting, step in solving the three-dimensional structure of a crystallized entity. Thus, the need for generating the heavy metal derivatives traditionally employed in crystallography might be eliminated. After the three-dimensional structure of a LXR or LXR LBD with or without a ligand bound is determined, the resultant three-dimensional structure can be used in computational methods to design synthetic ligands for LXR and other LXR polypeptide fragments. Further activity structure relationships can be determined through routine testing, using assays disclosed herein and known in the art.

[0156] VII. Preparation of LXR Ligands

[0157] The ligand N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide (T317) has been previously described (Schultz et al., (2000) Gene Dev. 14: 2831-2838) and comprises the chemical structure:

[0158] The ligand 24(S), 25-epoxycholesterol (EPC) is commercially available and its utility as a ligand for LXR has been described (Lehmann, et al., (1997) J. Biol. Chem. 272(6): 3137-3140). The synthesis of this compound has also been described (Nelson et al., (1981) J. Biol. Chem. 256:1067-1068; Saucier et al., (1985) J. Biol. Chem. 260: 14571-14579). 24(S), 25-epoxycholesterol comprises the chemical structure:

[0159] VIII. Uses of LXR Crystals and the Three-Dimensional Structure of the Ligand Binding Domain of LXR

[0160] The LXR crystals and three-dimensional structures that form aspects of the present invention can be employed in a variety of applications. A brief discussion of several of these applications is presented hereinbelow. Additional uses for LXR crystals and the three-dimensional structures disclosed herein will be apparent to those of skill in the art upon consideration of the present disclosure.

[0161] VIII.A. Design and Development of LXR Modulators

[0162] The knowledge of the structure of the LXR ligand binding domain, an aspect of the present invention, provides a tool for investigating the mechanism of action of LXR and other LXR polypeptides in a subject. For example, various computer models, as described herein, can predict the binding of various substrate molecules to the LBD of LXR. Upon discovering that such binding in fact takes place, knowledge of the protein structure then allows design and synthesis of small molecules that mimic the functional binding of the substrate to the LBD of LXR. This is the method of “rational” drug design, further described herein.

[0163] Use of the isolated and purified LXR crystalline structure of the present invention in rational drug design is thus provided in accordance with the present invention. Additional rational drug design techniques are described in U.S. Pat. Nos. 5,834,228 and 5,872,011, incorporated herein in their entirety.

[0164] Thus, in addition to the compounds described herein, other sterically similar compounds can be formulated to mimic the key structural regions of LXRs in general, or of hLXR in particular. The generation of a structural functional equivalent can be achieved by the techniques of modeling and chemical design known to those of skill in the art and described herein. It will be understood that all such sterically similar constructs fall within the scope of the present invention.

[0165] VIII.A.1. Rational Drug Design

[0166] The three-dimensional structure of a LXR ligand binding domain is unprecedented and will greatly aid in the development of new synthetic ligands for a LXR polypeptide, such as LXR agonists and antagonists, including those that bind exclusively to any one of the LXR orthologs. In addition, LXR is well suited to modern methods, including three-dimensional structure elucidation and combinatorial chemistry, such as those disclosed in U.S. Pat. No. 5,463,564, incorporated herein by reference. Structure determination using X-ray crystallography is possible because of the solubility properties of the LXR orthologs. Computer programs that use crystallography data when practicing the present invention will enable the rational design of ligands to these receptors. Programs such as RASMOL (Biomolecular Structures Group, Glaxo Wellcome Research & Development Stevenage, Hertfordshire, UK Version 2.6, August 1995, Version 2.6.4, December 1998, Copyright ©Roger Sayle 1992-1999) can be used with the atomic structural coordinates from crystals of the present invention, crystals generated by practicing the invention or crystals used to practice the invention by generating three-dimensional models and/or determining the structures involved in ligand binding. Computer programs such as those sold under the registered trademark INSIGHT II® and such as GRASP (Nicholls et al., (1991) Proteins 11: 281-96) allow for further manipulations and the ability to introduce new structures. In addition, high throughput binding and bioactivity assays can be devised using purified recombinant protein and modern reporter gene transcription assays known to those of skill in the art in order to refine the activity of a designed ligand.

[0167] A method of identifying modulators of the activity of a LXR polypeptide using rational drug design is thus provided in accordance with the present invention. The method comprises designing a potential modulator for a LXR polypeptide of the present invention that will form non-covalent bonds with amino acids in the ligand binding cavity based upon the crystalline structure of the LXR LBD polypeptide; synthesizing the modulator; and determining whether the potential modulator modulates the activity of the LXR polypeptide. In a preferred embodiment, the modulator is designed for a LXR polypeptide. Preferably, the LXR polypeptide comprises the amino acid sequence of SEQ ID NO: 4 and the LXR LBD comprises the amino acid sequence SEQ ID NO: 8. The determination of whether the modulator modulates the biological activity of a LXR polypeptide is made in accordance with the screening methods disclosed herein, or by other screening methods known to those of skill in the art. Modulators can be synthesized using techniques known to those of ordinary skill in the art.

[0168] In an alternative embodiment, a method of designing a modulator of a LXR polypeptide in accordance with the present invention is disclosed comprising: (a) selecting a candidate LXR ligand; (b) determining which amino acid or amino acids of a LXR polypeptide interact with the ligand using a three-dimensional model of a crystallized LXR LBD; (c) identifying in a biological assay for LXR activity a degree to which the ligand modulates the activity of the LXR polypeptide; (d) selecting a chemical modification of the ligand wherein the interaction between the amino acids of the LXR polypeptide and the ligand is predicted to be modulated by the chemical modification; (e) performing the chemical modification on the ligand to form a modified ligand; (f) contacting the modified ligand with the LXR polypeptide; (g) identifying in a biological assay for LXR activity a degree to which the modified ligand modulates the biological activity of the LXR polypeptide; and (h) comparing the biological activity of the LXR polypeptide in the presence of modified ligand with the biological activity of the LXR polypeptide in the presence of the unmodified ligand, whereby a modulator of a LXR polypeptide is designed.

[0169] VIII.A.2. Methods for Using the LXR LBD Structural Coordinates for Molecular Design

[0170] For the first time, the present invention permits the use of molecular design techniques to design, select and synthesize chemical entities and compounds, including modulatory compounds, capable of binding to the ligand binding cavity or an accessory binding site of LXR and the LXR LBD, in whole or in part. Correspondingly, the present invention also provides for the application of similar techniques in the design of modulators of any LXR polypeptide.

[0171] In accordance with a preferred embodiment of the present invention, the structure coordinates of a crystalline LXR LBD can be used to design compounds that bind to a LXR LBD (preferably a LXR LBD) and alter the properties of a LXR LBD (for example, the dimerization or ligand binding ability) in different ways. One aspect of the present invention provides for the design of compounds that act as competitive inhibitors of a LXR polypeptide by binding to all, or a portion of, the binding sites on a LXR LBD. The present invention also provides for the design of compounds that can act as uncompetitive inhibitors of a LXR LBD. These compounds can bind to all, or a portion of, an accessory binding site of a LXR that is already binding its ligand and can, therefore, be more potent and less non-specific than known competitive inhibitors that compete only for the LXR ligand binding cavity. Similarly, non-competitive inhibitors that bind to and inhibit LXR LBD activity, whether or not it is bound to another chemical entity, can be designed using the LXR LBD structure coordinates of this invention.

[0172] A second design approach is to probe a LXR or LXR LBD (preferably a hLXR or hLXR LBD) crystal with molecules comprising a variety of different chemical entities to determine optimal sites for interaction between candidate LXR or LXR LBD modulators and the polypeptide. For example, high resolution X-ray diffraction data collected from crystals saturated with solvent allows the determination of the site where each type of solvent molecule adheres. Small molecules that bind tightly to those sites can then be designed, synthesized and tested for their LXR modulator activity.

[0173] Once a computationally-designed ligand is synthesized using the methods of the present invention or other methods known to those of skill in the art, assays can be used to establish its efficacy of the ligand as a modulator of LXR (preferably hLXR) activity. After such assays, the ligands can be further refined by generating intact LXR, or LXR LBD, crystals with a ligand bound to the LXR. The structure of the ligand can then be further refined using the chemical modification methods described herein and known to those of skill in the art, in order to improve the modulation activity or the binding affinity of the ligand. This process can lead to second generation ligands with improved properties.

[0174] Ligands also can be selected that modulate LXR responsive gene transcription by the method of altering the interaction of co-activators and co-repressors with their cognate LXR. For example, agonistic ligands can be selected that block or dissociate a co-repressor from interacting with the LXR, and/or that promote binding or association of a co-activator. Antagonistic ligands can be selected that block co-activator interaction and/or promote co-repressor interaction with a target receptor. Selection can be done via binding assays that screen for designed ligands having the desired modulatory properties. Preferably, interactions of a hLXR polypeptide are targeted. Suitable assays for screening that can be employed, Mutatis mutandis in the present invention, are described in published PCT international applications WO 00/037077 and WO 00/025134, incorporated herein by reference in their entirety.

[0175] VIII.A.3. Methods of Designing LXR LBD Modulator Compounds

[0176] The design of candidate substances, also referred to as “compounds” or “candidate compounds”, that bind to or inhibit LXR LBD-mediated activity according to the present invention generally involves consideration of two factors. First, the compound must be capable of physically and structurally associating with a LXR LBD. Non-covalent molecular interactions important in the association of a LXR LBD with its substrate include hydrogen bonding, van der Waals interactions and hydrophobic interactions.

[0177] Second, the compound must be able to assume a conformation that allows it to associate with a LXR LBD. Although certain portions of the compound will not directly participate in this association with a LXR LBD, those portions can still influence the overall conformation of the molecule. This, in turn, can have a significant impact on potency. Such conformational requirements include the overall three-dimensional structure and orientation of the chemical entity or compound in relation to all or a portion of the binding site, e.g., the ligand binding cavity or an accessory binding site of a LXR LBD, or the spacing between functional groups of a compound comprising several chemical entities that directly interact with a LXR LBD.

[0178] The potential modulatory or binding effect of a chemical compound on a LXR LBD can be analyzed prior to its actual synthesis and testing by the use of computer modeling techniques that employ the coordinates of a crystalline LXR LBD polypeptide of the present invention. If the theoretical structure of the given compound suggests insufficient interaction and association between it and a LXR LBD, synthesis and testing of the compound is obviated. However, if computer modeling indicates a strong interaction, the molecule can then be synthesized and tested for its ability to bind and modulate the activity of a LXR LBD. In this manner, synthesis of unproductive or inoperative compounds can be avoided.

[0179] A modulatory or other binding compound of a LXR LBD polypeptide (preferably a hLXR LBD) can be computationally evaluated and designed via a series of steps in which chemical entities or fragments are screened and selected for their ability to associate with the individual binding sites or other areas of a crystalline LXR LBD polypeptide of the present invention.

[0180] One of several methods can be used to screen chemical entities or fragments for their ability to associate with a LXR LBD and, more particularly, with the individual binding sites of a LXR LBD, such as ligand binding cavity or an accessory binding site. This process can begin by visual inspection of, for example, the ligand binding cavity on a computer screen based on the LXR LBD atomic coordinates presented in Tables 2, 3 and 4. Selected fragments or chemical entities can then be positioned in a variety of orientations, or docked, within an individual binding site of a LXR LBD as defined herein above. Docking can be accomplished using software programs such as those available under the tradenames QUANTA™ (Molecular Simulations Inc., San Diego, Calif.) and SYBYL™ (Tripos, Inc., St. Louis, Mo.), followed by energy minimization and molecular dynamics with standard molecular mechanics forcefields, such as CHARM (Brooks et al., (1983) J. Comp. Chem., 8: 132) and AMBER 5 (Case et al., (1997) AMBER 5, University of California, San Francisco; Pearlman et al., (1995) Comput. Phys. Commun. 91: 1-41).

[0181] Specialized computer programs can also assist in the process of selecting fragments or chemical entities. These include:

[0182] 1. GRID™ program, version 17 (Goodford, (1985) J. Med. Chem. 28: 849-57), which is available from Molecular Discovery Ltd., Oxford, UK;

[0183] 2. MCSS™ program (Miranker & Karplus, (1991) Proteins 11: 29-34), which is available from Molecular Simulations, Inc., San Diego, Calif.;

[0184] 3. AUTODOCK™ 3.0 program (Goodsell & Olsen, (1990) Proteins 8: 195-202), which is available from the Scripps Research Institute, La Jolla, Calif.;

[0185] 4. DOCK™ 4.0 program (Kuntz et al., (1992) J. Mol. Biol. 161: 269-88), which is available from the University of California, San Francisco, Calif.;

[0186] 5. FLEX-X™ program (See, Rarey et al., (1996) J. Comput. Aid. Mol. Des. 10:41-54), which is available from Tripos, Inc., St. Louis, Mo.;

[0187] 6. MVP program (Lambert, (1997) in Practical Application of Computer-Aided Drug Design, (Charifson, ed.) Marcel-Dekker, New York, pp. 243-303); and

[0188] 7. LUDI™ program (Bohm, (1992) J. Comput. Aid. Mol. Des. 6: 61-78), which is available from Molecular Simulations, Inc., San Diego, Calif.

[0189] Once suitable chemical entities or fragments have been selected, they can be assembled into a single compound or modulator. Assembly can proceed by visual inspection of the relationship of the fragments to each other on the three-dimensional image displayed on a computer screen in relation to the structure coordinates of a LXR LBD. Manual model building using software such as QUANTA™ or SYBYL™ typically follows.

[0190] Useful programs to aid one of ordinary skill in the art in connecting the individual chemical entities or fragments include:

[0191] 1. CAVEAT™ program (Bartlett et al., (1989) Special Pub., Royal Chem. Soc. 78: 182-96), which is available from the University of California, Berkeley, Calif.;

[0192] 2. 3D database systems, such as MACCS-3D™ system program, which is available from MDL Information Systems, San Leandro, Calif. This area is reviewed in Martin, (1992) J. Med. Chem. 35: 2145-54; and

[0193] 3. HOOK™ program (Eisen et al., (1994). Proteins 19: 199-221), which is available from Molecular Simulations, Inc., San Diego, Calif.

[0194] Instead of proceeding to build a LXR LBD modulator (preferably a hLXR LBD modulator) in a step-wise fashion one fragment or chemical entity at a time as described above, modulatory or other binding compounds can be designed as a whole or de novo using the structural coordinates of a crystalline LXR LBD polypeptide of the present invention and either an empty binding site or optionally including some portion(s) of a known modulator(s). Applicable methods can employ the following software programs:

[0195] 1. LUDI™ program (Bohm, (1992) J. Comput Aid. Mol. Des. 6: 61-78), which is available from Molecular Simulations, Inc., San Diego, Calif.;

[0196] 2. LEGEND™ program (Nishibata & Itai, (1991) Tetrahedron 47: 8985); and

[0197] 3. LEAPFROG™, which is available from Tripos Associates, St. Louis, Mo.

[0198] Other molecular modeling techniques can also be employed in accordance with this invention. See, e.g., Cohen et al., (1990) J. Med. Chem. 33: 883-94. See also, Navia & Murcko, (1992) Curr. Opin. Struc. Biol. 2: 202-10; U.S. Pat. No. 6,008,033, herein incorporated by reference.

[0199] Once a compound has been designed or selected by the above methods, the efficiency with which that compound can bind to a LXR LBD can be tested and optimized by computational evaluation. By way of particular example, a compound that has been designed or selected to function as a LXR LBD modulator should also preferably traverse a volume not overlapping that occupied by the binding site when it is bound to its native ligand. Additionally, an effective LXR LBD modulator should preferably demonstrate a relatively small difference in energy between its bound and free states (i.e., a small deformation energy of binding). Thus, the most efficient LXR LBD modulators should preferably be designed with a deformation energy of binding of not greater than about 10 kcal/mole, and preferably, not greater than 7 kcal/mole. It is possible for LXR LBD modulators to interact with the polypeptide in more than one conformation that is similar in overall binding energy. In those cases, the deformation energy of binding is taken to be the difference between the energy of the free compound and the average energy of the conformations observed when the modulator binds to the polypeptide.

[0200] A compound designed or selected as binding to a LXR polypeptide (preferably a hLXR LBD polypeptide) can be further computationally optimized so that in its bound state it would preferably lack repulsive electrostatic interaction with the target polypeptide. Such non-complementary (e.g., electrostatic) interactions include repulsive charge-charge, dipole-dipole and charge-dipole interactions. Specifically, the sum of all electrostatic interactions between the modulator and the polypeptide when the modulator is bound to a LXR LBD preferably make a neutral or favorable contribution to the enthalpy of binding.

[0201] Specific computer software is available in the art to evaluate compound deformation energy and electrostatic interaction. Examples of programs designed for such uses include:

[0202] 1. Gaussian 98™, which is available from Gaussian, Inc., Pittsburgh, Pa.;

[0203] 2. AMBER™ program, version 6.0, which is available from the University of California at San Francisco;

[0204] 3. QUANTA™ program, which is available from Molecular Simulations, Inc., San Diego, Calif.;

[0205] 4. CHARMm® program, which is available from Molecular Simulations, Inc., San Diego, Calif.; and

[0206] 4. INSIGHT II® program, which is available from Molecular Simulations, Inc., San Diego, Calif.

[0207] These programs can be implemented using a suitable computer system. Other hardware systems and software packages will be apparent to those skilled in the art after review of the disclosure of the present invention presented herein.

[0208] Once a LXR LBD modulating compound has been optimally selected or designed, as described above, substitutions can then be made in some of its atoms or side groups in order to improve or modify its binding properties. Generally, initial substitutions are conservative, i.e., the replacement group will have approximately the same size, shape, hydrophobicity and charge as the original group. It should, of course, be understood that components known in the art to alter conformation should be avoided. Such substituted chemical compounds can then be analyzed for efficiency of fit to a LXR LBD binding site using the same computer-based approaches described in detail above.

[0209] VIII.B. Method of Screening for Chemical and Biological Modulators of the Biological Activity of LXR

[0210] A candidate substance identified according to a screening assay of LXR present invention has an ability to modulate the biological activity of a LXR polypeptide or a LXR LBD polypeptide. In a preferred embodiment, such a candidate compound can have utility in the treatment of disorders and conditions associated with the biological activity of a LXR or a LXR LBD polypeptide, including, but not limited to reducing serum levels of cholesterol and reducing arterial plaque formation and accumulation.

[0211] In a cell-free system, the method comprises the steps of establishing a control system comprising a LXR polypeptide and a ligand which is capable of binding to the polypeptide; establishing a test system comprising a LXR polypeptide, the ligand, and a candidate compound; and determining whether the candidate compound modulates the activity of the polypeptide by comparison of the test and control systems. A representative ligand comprises N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide, EPC, a peptide or a small molecule, and in this embodiment, the biological activity or property screened includes binding affinity.

[0212] In another embodiment of the invention, a form of a LXR polypeptide or a catalytic or immunogenic fragment or oligopeptide thereof, can be used for screening libraries of compounds in any of a variety of drug screening techniques. The fragment employed in such a screening can be affixed to a solid support. The formation of binding complexes, between a LXR polypeptide and the agent being tested, will be detected. In a preferred embodiment, the LXR polypeptide has an amino acid sequence of SEQ ID NO: 4. When a LXR LBD polypeptide is employed, a preferred embodiment includes a LXR polypeptide having the amino acid sequence of SEQ ID NO: 8.

[0213] Another technique for drug screening which can be used provides for high throughput screening of compounds having suitable binding affinity to the protein of interest as described in published PCT application WO 84/03564, herein incorporated by reference. In this method, as applied to a polypeptide of the present invention, large numbers of different small test compounds are synthesized on a solid substrate, such as plastic pins or some other surface. The test compounds are reacted with the polypeptide, or fragments thereof. Bound polypeptide is then detected by methods well known to those of skill in the art. The polypeptide can also be placed directly onto plates for use in the aforementioned drug screening techniques.

[0214] In yet another embodiment, a method of screening for a modulator of a LXR polypeptide or a LXR LBD polypeptide comprises: providing a library of test samples; contacting a LXR polypeptide or a LXR LBD polypeptide with each test sample; detecting an interaction between a test sample and a LXR polypeptide or a LXR LBD polypeptide; identifying a test sample that interacts with a LXR polypeptide or a LXR LBD polypeptide; and isolating a test sample that interacts with a LXR polypeptide or a LXR LBD polypeptide.

[0215] In each of the foregoing embodiments, an interaction can be detected spectrophotometrically, radiologically or immunologically. An interaction between a LXR polypeptide or a LXR LBD polypeptide and a test sample can also be quantified using methodology known to those of skill in the art. In another embodiment, the LXR polypeptide and the LXR LBD is in crystalline form.

[0216] In accordance with the present invention there is also provided a rapid and high throughput screening method that relies on the methods described above. This screening method comprises separately contacting each of a plurality of substantially identical samples with a LXR polypeptide or a LXR LBD and detecting a resulting binding complex. In such a screening method the plurality of samples preferably comprises more than about 10⁴ samples, and more preferably comprises more than about 5×10⁴ samples.

[0217] VIII.C. Method of Identifying Compounds Which Inhibit Ligand Binding

[0218] Using the crystal structures and ligand orientations, disclosed for the first time in the present invention, it is possible to design test compounds that inhibit binding of ligands normally bound by a LXR polypeptide.

[0219] In one aspect of the present invention, an assay method for identifying a compound that inhibits binding of a ligand to a LXR polypeptide is disclosed. A known ligand of LXR can be used in the assay method as the ligand against which the inhibition by a test compound is gauged. N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide, EPC, a SRC-dervied peptide, and combinations thereof, are preferred ligands in the assay method. The method comprises (a) incubating a LXR polypeptide with a ligand in the presence of a test inhibitor compound; (b) determining an amount of ligand that is bound to the LXR polypeptide, wherein decreased binding of ligand to the LXR polypeptide in the presence of the test inhibitor compound relative to binding in the absence of the test inhibitor compound is indicative of inhibition; and (c) identifying the test compound as an inhibitor of ligand binding if decreased ligand binding is observed. Preferably, the ligand is N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide, EPC, a SRC-dervied peptide, and combinations thereof.

[0220] In another aspect of the present invention, the disclosed assay method can be employed in the structural refinement of candidate LXR inhibitors. For example, multiple rounds of optimization can be followed by gradual structural changes in a strategy of inhibitor design. A strategy such as this is made possible by the disclosure of the coordinates of the LXR LBD and the disclosure of the orientation position of ligands of LXR, namely N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide, EPC, a SRC-dervied peptide, and combinations thereof.

[0221] IX. Design, Preparation and Structural Analysis of LXR and LXR LBD Mutants and Structural Equivalents

[0222] The present invention provides for the generation of LXR and LXR mutants (preferably hLXR and hLXR LBD mutants), and the ability to solve the crystal structures of those that crystallize. More particularly, through the provision of the three-dimensional structure of a LXR LBD, desirable sites for mutation can be identified, based on analysis of the three-dimensional LXR LBD structure coordinates provided herein.

[0223] The structure coordinates of a LXR LBD provided in accordance with the present invention also facilitate the identification of related proteins or enzymes analogous to LXR in function, structure or both, (for example, a mouse LXR), which can lead to novel therapeutic modes for treating or preventing a range of disease states, such as minimization of serum cholesterol levels and preventing the accumulation of cholesterol plaques.

[0224] IX.A. Sterically Similar Compounds

[0225] A further aspect of the present invention is that sterically similar compounds can be formulated to mimic the key portions of a LXR LBD structure. Such compounds are functional equivalents. The generation of a structural functional equivalent can be achieved by the techniques of modeling and chemical design known to those of skill in the art and described herein. Modeling and chemical design of LXR and LXR LBD structural equivalents can be based on the structure coordinates of a crystalline LXR LBD polypeptide of the present invention. It will be understood that all such sterically similar constructs fall within the scope of the present invention.

[0226] IX.B. LXR Polypeptides

[0227] The generation of chimeric LXR polypeptides is also an aspect of the present invention. Such a chimeric polypeptide can comprise a LXR LBD polypeptide or a portion of a LXR LBD, (e.g. a hLXR LBD) which is fused to a candidate polypeptide or a suitable region of the candidate polypeptide, for example a LXR expressed in mouse or other species. Throughout the present disclosure it is intended that the term “mutant” encompass not only mutants of a LXR LBD polypeptide but chimeric proteins generated using a LXR LBD as well. It is thus intended that the following discussion of mutant LXR LBDs apply mutatis mutandis to chimeric LXR and LXR LBD polypeptides and to structural equivalents thereof.

[0228] In accordance with the present invention, a mutation can be directed to a particular site or combination of sites of a wild-type LXR LBD. For example, an accessory binding site or the binding cavity can be chosen for mutagenesis. Similarly, a residue having a location on, at or near the surface of the polypeptide can be replaced, resulting in an altered surface charge of one or more charge units, as compared to the wild-type LXR and LXR LBD. Alternatively, an amino acid residue in a LXR or a LXR LBD can be chosen for replacement based on its hydrophilic or hydrophobic characteristics.

[0229] Such mutants can be characterized by any one of several different properties as compared with the wild-type LXR LBD. For example, such mutants can have an altered surface charge of one or more charge units, or can have an increase in overall stability. Other mutants can have altered substrate specificity in comparison with, or a higher specific activity than, a wild-type LXR or LXR LBD.

[0230] LXR and LXR LBD mutants of the present invention can be generated in a number of ways. For example, the wild-type sequence of a LXR or a LXR LBD can be mutated at those sites identified using this invention as desirable for mutation, by means of oligonucleotide-directed mutagenesis or other conventional methods, such as deletion. Alternatively, mutants of a LXR or a LXR LBD can be generated by the site-specific replacement of a particular amino acid with an unnaturally occurring amino acid. In addition, LXR or LXR LBD mutants can be generated through replacement of an amino acid residue, for example, a particular cysteine or methionine residue, with selenocysteine or selenomethionine. This can be achieved by growing a host organism capable of expressing either the wild-type or mutant polypeptide on a growth medium depleted of either natural cysteine or methionine (or both) but enriched in selenocysteine or selenomethionine (or both).

[0231] Mutations can be introduced into a DNA sequence coding for a LXR or a LXR LBD using synthetic oligonucleotides. These oligonucleotides contain nucleotide sequences flanking the desired mutation sites. Mutations can be generated in the full-length DNA sequence of a LXR or a LXR LBD or in any sequence coding for polypeptide fragments of a LXR or a LXR LBD.

[0232] According to the present invention, a mutated LXR or LXR LBD DNA sequence produced by the methods described above, or any alternative methods known in the art, can be expressed using an expression vector. An expression vector, as is well known to those of skill in the art, typically includes elements that permit autonomous replication in a host cell independent of the host genome, and one or more phenotypic markers for selection purposes. Either prior to or after insertion of the DNA sequences surrounding the desired LXR or LXR LBD mutant coding sequence, an expression vector also will include control sequences encoding a promoter, operator, ribosome binding site, translation initiation signal, and, optionally, a repressor gene or various activator genes and a signal for termination. In some embodiments, where secretion of the produced mutant is desired, nucleotides encoding a “signal sequence” can be inserted prior to a LXR or a LXR LBD mutant coding sequence. For expression under the direction of the control sequences, a desired DNA sequence must be operatively linked to the control sequences; that is, the sequence must have an appropriate start signal in front of the DNA sequence encoding the LXR or LXR LBD mutant, and the correct reading frame to permit expression of that sequence under the control of the control sequences and production of the desired product encoded by that LXR or LXR LBD sequence must be maintained.

[0233] Any of a wide variety of well-known available expression vectors can be useful to express a mutated LXR or LXR LBD coding sequences of this invention and generated as described in Laboratory Example 3. These expression vectors can be used in the techniques disclosed in Laboratory Examples 1 and 3 and can include, for example, vectors comprising segments of chromosomal, non-chromosomal and synthetic DNA sequences, such as various known derivatives of SV40, known bacterial plasmids, e.g., plasmids from E. coli including col E1, pCR1, pBR322, pMB9 and their derivatives, wider host range plasmids, e.g., RP4, phage DNAs, e.g., the numerous derivatives of phage λ, e.g., NM 989, and other DNA phages, e.g., M13 and filamentous single stranded DNA phages, yeast plasmids and vectors derived from combinations of plasmids and phage DNAs, such as plasmids which have been modified to employ phage DNA or other expression control sequences. In a preferred embodiment of this invention, the E. coli vector pRSETA, including a T7-based expression system, is employed.

[0234] In addition, any of a wide variety of expression control sequences-sequences that control the expression of a DNA sequence when operatively linked to it—can be used in these vectors to express the mutated DNA sequences according to this invention. Such useful expression control sequences, include, for example, the early and late promoters of SV40 for animal cells, the lac system, the trp system the TAC or TRC system, the major operator and promoter regions of phage λ, the control regions of fd coat protein, all for E. coli, the promoter for 3-phosphoglycerate kinase or other glycolytic enzymes, the promoters of acid phosphatase, e.g., Pho5, the promoters of the yeast α-mating factors for yeast, and other sequences known to control the expression of genes of prokaryotic or eukaryotic cells or their viruses, and various combinations thereof.

[0235] A wide variety of hosts are also useful for producing mutated LXR and LXR LBD polypeptides according to this invention. These hosts include, for example, bacteria, such as E. coli, Bacillus and Streptomyces, fungi, such as yeasts, and animal cells, such as CHO and COS-1 cells, plant cells, insect cells, such as Sf9 cells, and transgenic host cells.

[0236] It should be understood that not all expression vectors and expression systems function in the same way to express mutated DNA sequences of this invention, and to produce modified LXR and LXR LBD polypeptides or LXR or LXR LBD mutants. Neither do all hosts function equally well with the same expression system. One of skill in the art can, however, make a selection among these vectors, expression control sequences and hosts without undue experimentation and without departing from the scope of this invention. For example, an important consideration in selecting a vector will be the ability of the vector to replicate in a given host. The copy number of the vector, the ability to control that copy number, and the expression of any other proteins encoded by the vector, such as antibiotic markers, should also be considered.

[0237] In selecting an expression control sequence, a variety of factors should also be considered. These include, for example, the relative strength of the system, its controllability and its compatibility with the DNA sequence encoding a modified LXR or LXR LBD polypeptide of this invention, with particular regard to the formation of potential secondary and tertiary structures.

[0238] Hosts should be selected by consideration of their compatibility with the chosen vector, the toxicity of a modified LXR or LXR LBD to them, their ability to express mature products, their ability to fold proteins correctly, their fermentation requirements (if any), the ease of purification of a modified LXR or LXR LBD and safety. Within these parameters, one of skill in the art can select various vector/expression control system/host combinations that will produce useful amounts of a mutant LXR or LXR LBD. A mutant LXR or LXR LBD produced in these systems can be purified by a variety of conventional steps and strategies, including those used to purify the wild-type LXR or LXR LBD.

[0239] Once a LXR LBD mutation(s) has been generated in the desired location, such as a ligand binding or dimerization site, the mutants can be tested for any one of several properties of interest. For example, mutants can be screened for an altered charge at physiological pH. This is determined by measuring the mutant LXR or LXR LBD isoelectric point (pI) and comparing the observed value with that of the wild-type parent. Isoelectric point can be measured by gel-electrophoresis according to the method of Wellner (Wellner, (1971) Anal. Chem. 43: 597). A mutant LXR or LXR LBD polypeptide containing a replacement amino acid located at the surface of the enzyme, as provided by the structural information of this invention, can lead to an altered surface charge and an altered pl.

[0240] IX.C. Generation of an Engineered LXR or LXR LBD Mutant

[0241] In another aspect of the present invention, a unique LXR or LXR LBD polypeptide can be generated. Such a mutant can facilitate purification and can facilitate the study of the ligand binding abilities of a LXR polypeptide.

[0242] As used in the following discussion, the terms “engineered LXR”, “engineered LXR LDB”, “LXR mutant”, and “LXR LBD mutant” refers to polypeptides having amino acid sequences which contain at least one mutation in the wild-type sequence. The terms also refer to LXR and LXR LBD polypeptides which are capable of exerting a biological effect in that they comprise all or a part of the amino acid sequence of an engineered LXR or LXR LBD mutant polypeptide of the present invention, or cross-react with antibodies raised against an engineered LXR or LXR LBD mutant polypeptide, or retain all or some or an enhanced degree of the biological activity of the engineered LXR or LXR LBD mutant amino acid sequence or protein. Such biological activity can include ligand binding (e.g. EPC and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide) and co-factor binding (e.g. binding a SRC peptide), as well as reducing serum cholesterol levels and reducing accumulation of cholesterol plaques.

[0243] The terms “engineered LXR LBD” and “LXR LBD mutant” also includes analogs of an engineered LXR LBD or LXR LBD mutant polypeptide. By “analog” is intended that a DNA or polypeptide sequence can contain alterations relative to the sequences disclosed herein, yet retain all or some or an enhanced degree of the biological activity of those sequences. Analogs can be derived from genomic nucleotide sequences or from other organisms, or can be created synthetically. Those of skill in the art will appreciate that other analogs, as yet undisclosed or undiscovered, can be used to design and/or construct LXR LBD or LXR LBD mutant analogs. There is no need for an engineered LXR LBD or LXR LBD mutant polypeptide to comprise all or substantially all of the amino acid sequence of SEQ ID NOs: 6 or 8. Shorter or longer sequences are anticipated to be of use in the invention; shorter sequences are herein referred to as “segments”. Thus, the terms “engineered LXR LBD” and “LXR LBD mutant” also includes fusion, chimeric or recombinant engineered LXR LBD or LXR LBD mutant polypeptides and proteins comprising sequences of the present invention. Methods of preparing such proteins are disclosed herein above and are known in the art.

[0244] IX.D. Sequence Similarity and Identity

[0245] As used herein, the term “substantially similar” means that a particular sequence varies from nucleic acid sequence of SEQ ID NOs: 1, 3, 5, and 7, or the amino acid sequence of SEQ ID NOs: 2, 4, 6, 8 and 9 by one or more deletions, substitutions, or additions, the net effect of which is to retain at least some of biological activity of the natural gene, gene product, or sequence. Such sequences include “mutant” or “polymorphic” sequences, or sequences in Which the biological activity and/or the physical properties are altered to some degree but retains at least some or an enhanced degree of the original biological activity and/or physical properties. In determining nucleic acid sequences, all subject nucleic acid sequences capable of encoding substantially similar amino acid sequences are considered to be substantially similar to a reference nucleic acid sequence, regardless of differences in codon sequences or substitution of equivalent amino acids to create biologically functional equivalents.

[0246] IX.D.1. Sequences that are Substantially Identical to an Engineered LXR or LXR LBD Mutant Sequence of the Present Invention

[0247] Nucleic acids that are substantially identical to a nucleic acid sequence of an engineered LXR or LXR LBD mutant of the present invention, e.g. allelic variants, genetically altered versions of the gene, etc., bind to an engineered LXR or LXR LBD mutant sequence under stringent hybridization conditions. By using probes, particularly labeled probes of DNA sequences, one can isolate homologous or related genes. The source of homologous genes can be any species, e.g. primate species; rodents, such as rats and mice, canines, felines, bovines, equines, yeast, nematodes, etc.

[0248] Between mammalian species, e.g. human and mouse, homologs have substantial sequence similarity, i.e. at least 75% sequence identity between nucleotide sequences. Sequence similarity is calculated based on a reference sequence, which can be a subset of a larger sequence, such as a conserved motif, coding region, flanking region, etc. A reference sequence will usually be at least about 18 nucleotides(nt) long, more usually at least about 30 nt long, and can extend to the complete sequence that is being compared. Algorithms for sequence analysis are known in the art, such as BLAST, described in Altschul et al., (1990) J. Mol. Biol. 215: 403-10.

[0249] Percent identity or percent similarity of a DNA or peptide sequence can be determined, for example, by comparing sequence information using the GAP computer program, available from the University of Wisconsin Geneticist Computer Group. The GAP program utilizes the alignment method of Needleman et al., (1970) J. Mol. Biol. 48: 443, as revised by Smith et al., (1981) Adv. Appl. Math. 2:482. Briefly, the GAP program defines similarity as the number of aligned symbols (i.e., nucleotides or amino acids) that are similar, divided by the total number of symbols in the shorter of the two sequences. The preferred parameters for the GAP program are the default parameters, which do not impose a penalty for end gaps. See, e.g., Schwartz et al. (eds.), (1979), Atlas of Protein Sequence and Structure, National Biomedical Research Foundation, pp. 357-358, and Gribskov et al., (1986) Nucl. Acids. Res. 14: 6745.

[0250] The term “similarity” is contrasted with the term “identity”. Similarity is defined as above; “identity”, however, means a nucleic acid or amino acid sequence having the same amino acid at the same relative position in a given family member of a gene family. Homology and similarity are generally viewed as broader terms than the term identity. Biochemically similar amino acids, for example leucine/isoleucine or glutamate/aspartate, can be present at the same position—these are not identical per se, but are biochemically “similar.” As disclosed herein, these are referred to as conservative differences or conservative substitutions. This differs from a conservative mutation at the DNA level, which changes the nucleotide sequence without making a change in the encoded amino acid, e.g. TCC to TCA, both of which encode serine.

[0251] As used herein, DNA analog sequences are “substantially identical” to specific DNA sequences disclosed herein if: (a) the DNA analog sequence is derived from coding regions of the nucleic acid sequence shown in SEQ ID NOs: 1, 3, 5 and 7; or (b) the DNA analog sequence is capable of hybridization with DNA sequences of (a) under stringent conditions and which encode a biologically active LXR or LXR LBD gene product; or (c) the DNA sequences are degenerate as a result of alternative genetic code to the DNA analog sequences defined in (a) and/or (b). Substantially identical analog proteins and nucleic acids will have between about 70% and 80%, preferably between about 81% to about 90% or even more preferably between about 91% and 99% sequence identity with the corresponding sequence of the native protein or nucleic acid. Sequences having lesser degrees of identity but comparable biological activity are considered to be equivalents.

[0252] As used herein, “stringent conditions” means conditions of high stringency, for example 6×SSC, 0.2% polyvinylpyrrolidone, 0.2% Ficoll, 0.2% bovine serum albumin, 0.1% sodium dodecyl sulfate, 100 μg/ml salmon sperm DNA and 15% formamide at 68° C. For the purposes of specifying additional conditions of high stringency, preferred conditions are salt concentration of about 200 mM and temperature of about 45° C. One example of such stringent conditions is hybridization at 4×SSC, at 65° C., followed by a washing in 0.1×SSC at 65° C. for one hour. Another exemplary stringent hybridization scheme uses 50% formamide, 4×SSC at 42° C.

[0253] In contrast, nucleic acids having sequence similarity are detected by hybridization under lower stringency conditions. Thus, sequence identity can be determined by hybridization under lower stringency conditions, for example, at 50° C. or higher and 0.1×SSC (9 mM NaCl/0.9 mM sodium citrate) and the sequences will remain bound when subjected to washing at 55° C. in 1×SSC.

[0254] IX.D.2. Complementarity and Hybridization to an Engineered LXR or LXR LBD Mutant Sequence

[0255] As used herein, the term “complementary sequences” means nucleic acid sequences that are base-paired according to the standard Watson-Crick complementarity rules. The present invention also encompasses the use of nucleotide segments that are complementary to the sequences of the present invention.

[0256] Hybridization can also be used for assessing complementary sequences and/or isolating complementary nucleotide sequences. As discussed above, nucleic acid hybridization will be affected by such conditions as salt concentration, temperature, or organic solvents, in addition to the base composition, length of the complementary strands, and the number of nucleotide base mismatches between the hybridizing nucleic acids, as will be readily appreciated by those skilled in the art. Stringent temperature conditions will generally include temperatures in excess of about 30° C., typically in excess of about 37° C., and preferably in excess of about 45° C. Stringent salt conditions will ordinarily be less than about 1,000 mM, typically less than about 500 mM, and preferably less than about 200 mM. However, the combination of parameters is much more important than the measure of any single parameter. See, e.g., Wetmur & Davidson, (1968) J. Mol. Biol. 31: 349-70. Determining appropriate hybridization conditions to identify and/or isolate sequences containing high levels of homology is well known in the art. See, e.g., Sambrook et al., (1989) Molecular Cloning: A Laboratory Manual, Cold Spring Harbor, N.Y.

[0257] IX.D.3. Functional Equivalents of an Engineered LXR or LXR LBD Mutant Nucleic Acid Sequence of the Present Invention

[0258] As used herein, the term “functionally equivalent codon” is used to refer to codons that encode the same amino acid, such as the ACG and AGU codons for serine. LXR or LXR LBD-encoding nucleic acid sequences comprising SEQ ID NOs: 1, 3, 5 and 7, which have functionally equivalent codons, are covered by the present invention. Thus, when referring to the sequence examples presented in SEQ ID NOs: 2, 4, 6 and 8, applicants contemplate substitution of functionally equivalent codons into the sequence example of SEQ ID NOs: 1, 3, 5 and 7. Thus, applicants are in possession of amino acid and nucleic acids sequences which include such substitutions but which are not set forth herein in their entirety for convenience.

[0259] It will also be understood by those of skill in the art that amino acid and nucleic acid sequences can include additional residues, such as additional N- or C-terminal amino acids or 5′ or 3′ nucleic acid sequences, and yet still be essentially as set forth in one of the sequences disclosed herein, so long as the sequence retains biological protein activity where polypeptide expression is concerned. The addition of terminal sequences particularly applies to nucleic acid sequences which can, for example, include various non-coding sequences flanking either of the 5′ or 3′ portions of the coding region or can include various internal sequences, i.e., introns, which are known to occur within genes.

[0260] IX.D.4. Biological Equivalents

[0261] The present invention envisions and includes biological equivalents of an engineered LXR or LXR LBD mutant polypeptide of the present invention. The term “biological equivalent” refers to proteins having amino acid sequences which are substantially identical to the amino acid sequence of an engineered LXR LBD mutant of the present invention and which are capable of exerting a biological effect in that they are capable of binding DNA moieties or cross-reacting with anti-LXR or LXR LBD mutant antibodies raised against an engineered mutant LXR or LXR LBD polypeptide of the present invention.

[0262] For example, certain amino acids can be substituted for other amino acids in a protein structure without appreciable loss of interactive capacity with, for example, structures in the nucleus of a cell. Since it is the interactive capacity and nature of a protein that defines that protein's biological functional activity, certain amino acid sequence substitutions can be made in a protein sequence (or the nucleic acid sequence encoding it) to obtain a protein with the same, enhanced, or antagonistic properties. Such properties can be achieved by interaction with the normal targets of the protein, but this need not be the case, and the biological activity of the invention is not limited to a particular mechanism of action. It is thus in accordance with the present invention that various changes can be made in the amino acid sequence of an engineered LXR or LXR LBD mutant polypeptide of the present invention or its underlying nucleic acid sequence without appreciable loss of biological utility or activity.

[0263] Biologically equivalent polypeptides, as used herein, are polypeptides in which certain, but not most or all, of the amino acids can be substituted. Thus, when referring to the sequence examples presented in SEQ ID NOs: 2, 4, 6, 8 and 9, applicants envision substitution of codons that encode biologically equivalent amino acids, as described herein, into the sequence examples of SEQ ID NOs: 1, 3, 5 and 7, respectively. Thus, applicants are in possession of amino acid and nucleic acids sequences which include such substitutions but which are not set forth herein in their entirety for convenience.

[0264] Alternatively, functionally equivalent proteins or peptides can be created via the application of recombinant DNA technology, in which changes in the protein structure can be engineered, based on considerations of the properties of the amino acids being exchanged, e.g. substitution of Ile for Leu. Changes designed by man can be introduced through the application of site-directed mutagenesis techniques, e.g., to introduce improvements to the antigenicity of the protein or to test an engineered LXR or LXR LBD mutant polypeptide of the present invention for its ability to modulate DNA-binding, ligand-binding or other activity, at the molecular level.

[0265] Amino acid substitutions, such as those that might be employed in modifying an engineered LXR or LXR LBD mutant polypeptide of the present invention are generally, but not necessarily, based on the relative similarity of the amino acid side-chain substituents, for example, their hydrophobicity, hydrophilicity, charge, size, and the like. An analysis of the size, shape and type of the amino acid side-chain substituents reveals that arginine, lysine and histidine are all positively charged residues; that alanine, glycine and serine are all of similar size; and that phenylalanine, tryptophan and tyrosine all have a generally similar shape. Therefore, based upon these considerations, arginine, lysine and histidine; alanine, glycine and serine; and phenylalanine, tryptophan and tyrosine; are defined herein as biologically functional equivalents. Other biologically functionally equivalent changes will be appreciated by those of skill in the art. It is implicit in the above discussion, however, that one of skill in the art can appreciate that a radical, rather than a conservative substitution is warranted in a given situation. Non-conservative substitutions in engineered mutant LXR or LXR LBD polypeptides of the present invention are also an aspect of the present invention.

[0266] In making biologically functional equivalent amino acid substitutions, the hydropathic index of amino acids can be considered. Each amino acid has been assigned a hydropathic index on the basis of their hydrophobicity and charge characteristics, these are: isoleucine (+4.5); valine (+4.2); leucine (+3.8); phenylalanine (+2.8); cysteine (+2.5); methionine (+1.9); alanine (+1.8); glycine (−-0.4); threonine (−0.7); serine (−0.8); tryptophan (−0.9); tyrosine (−1.3); proline (−1.6); histidine (−3.2); glutamate (−3.5); glutamine (−3.5); aspartate (−3.5); asparagine (−3.5); lysine (−3.9); and arginine (−4.5).

[0267] The importance of the hydropathic amino acid index in conferring interactive biological function on a protein is generally understood in the art (Kyte & Doolittle, (1982), J. Mol. Biol. 157: 105-132, incorporated herein by reference). It is known that certain amino acids can be substituted for other amino acids having a similar hydropathic index or score and still retain a similar biological activity. In making changes based upon the hydropathic index, the substitution of amino acids whose hydropathic indices are within ±2 of the original value is preferred, those which are within ±1 of the original value are particularly preferred, and those within ±0.5 of the original value are even more particularly preferred.

[0268] It is also understood in the art that the substitution of like amino acids can be made effectively on the basis of hydrophilicity. U.S. Pat. No. 4,554,101, incorporated herein by reference, states that the greatest local average hydrophilicity of a protein, as governed by the hydrophilicity of its adjacent amino acids, correlates with its immunogenicity and antigenicity, i.e. with a biological property of the protein. It is understood that an amino acid can be substituted for another having a similar hydrophilicity value and still obtain a biologically equivalent protein.

[0269] As detailed in U.S. Pat. No. 4,554,101, the following hydrophilicity values have been assigned to amino acid residues: arginine (+3.0); lysine (+3.0); aspartate (+3.0±1); glutamate (+3.0+1); serine (+0.3); asparagine (+0.2); glutamine (+0.2); glycine (0); threonine (−0.4); proline (−0.5+1); alanine (−0.5); histidine (−0.5); cysteine (−1.0); methionine (−1.3); valine (−1.5); leucine (−1.8); isoleucine (−1.8); tyrosine (−2.3); phenylalanine (−2.5); tryptophan (−3.4).

[0270] In making changes based upon similar hydrophilicity values, the substitution of amino acids whose hydrophilicity values are within ±2 of the original value is preferred, those which are within ±1 of the original value are particularly preferred, and those within ±0.5 of the original value are even more particularly preferred.

[0271] While discussion has focused on functionally equivalent polypeptides arising from amino acid changes, it will be appreciated that these changes can be effected by alteration of the encoding DNA, taking into consideration also that the genetic code is degenerate and that two or more codons can code for the same amino acid.

[0272] Thus, it will also be understood that this invention is not limited to the particular amino acid and nucleic acid sequences of SEQ ID NOs: 1-9. Recombinant vectors and isolated DNA segments can therefore variously include an engineered LXR or LXR LBD polypeptide-encoding region itself, include coding regions bearing selected alterations or modifications in the basic coding region, or include larger polypeptides which nevertheless comprise a LXR or LXR LBD polypeptide-encoding regions or can encode biologically functional equivalent proteins or polypeptides which have variant amino acid sequences. Biological activity of an engineered LXR or LXR LBD polypeptide can be determined, for example, by ligand binding assays known to those of skill in the art.

[0273] The nucleic acid segments of the present invention, regardless of the length of the coding sequence itself, can be combined with other DNA sequences, such as promoters, enhancers, polyadenylation signals, additional restriction enzyme sites, multiple cloning sites, other coding segments, and the like, such that their overall length can vary considerably. It is therefore contemplated that a nucleic acid fragment of almost any length can be employed, with the total length preferably being limited by the ease of preparation and use in the intended recombinant DNA protocol. For example, nucleic acid fragments can be prepared which include a short stretch complementary to a nucleic acid sequence set forth in SEQ ID NOs: 1, 3, 5 and 7, such as about 10 nucleotides, and which are up to 10,000 or 5,000 base pairs in length. DNA segments with total lengths of about 4,000, 3,000, 2,000, 1,000, 500, 200, 100, and about 50 base pairs in length are also useful.

[0274] The DNA segments of the present invention encompass biologically functional equivalents of engineered LXR or LXR LBD polypeptides. Such sequences can rise as a consequence of codon redundancy and functional equivalency that are known to occur naturally within nucleic acid sequences and the proteins thus encoded. Alternatively, functionally equivalent proteins or polypeptides can be created via the application of recombinant DNA technology, in which changes in the protein structure can be engineered, based on considerations of the properties of the amino acids being exchanged. Changes can be introduced through the application of site-directed mutagenesis techniques, e.g., to introduce improvements to the antigenicity of the protein or to test variants of an engineered LXR or LXR LBD mutant of the present invention in order to examine the degree of ligand binding activity, or other activity at the molecular level. Various site-directed mutagenesis techniques are known to those of skill in the art and can be employed in the present invention.

[0275] The invention further encompasses fusion proteins and peptides wherein an engineered LXR or LXR LBD mutant coding region of the present invention is aligned within the same expression unit with other proteins or peptides having desired functions, such as for purification or immunodetection purposes.

[0276] Recombinant vectors form important further aspects of the present invention. Particularly useful vectors are those in which the coding portion of the DNA segment is positioned under the control of a promoter. The promoter can be that naturally associated with a LXR gene, as can be obtained by isolating the 5′ non-coding sequences located upstream of the coding segment or exon, for example, using recombinant cloning and/or PCR technology and/or other methods known in the art, in conjunction with the compositions disclosed herein.

[0277] In other embodiments, certain advantages will be gained by positioning the coding DNA segment under the control of a recombinant, or heterologous, promoter. As used herein, a recombinant or heterologous promoter is a promoter that is not normally associated with a LXR gene in its natural environment. Such promoters can include promoters isolated from bacterial, viral, eukaryotic, or mammalian cells. Naturally, it will be important to employ a promoter that effectively directs the expression of the DNA segment in the cell type chosen for expression. The use of promoter and cell type combinations for protein expression is generally known to those of skill in the art of molecular biology (See, e.g., Sambrook et al., (1989) Molecular Cloning: A Laboratory Manual, Cold Spring Harbor Laboratory, New York, specifically incorporated herein by reference). The promoters employed can be constitutive or inducible and can be used under the appropriate conditions to direct high level expression of the introduced DNA segment, such as is advantageous in the large-scale production of recombinant proteins or peptides. One preferred promoter system contemplated for use in high-level expression is a T7 promoter-based system.

[0278] X. Uses of LXR Mutants

[0279] The LXR mutants disclosed herein have a variety of applications, including in the screening of components for LXR activation using the cell-free reporter gene assay methods disclosed herein above, and using whole animal models. The LXR mutants can also be used in cell-free, cell-based and whole animal assay methods for bioavailability of compounds and for toxicology analysis. Additionally, LXR mutants can be employed in crystallizations, screening for changes in ligand activation, screening for species-specific changes in ligand activation and screening for changes in oligomerization state both with and without ligand.

[0280] XI. The Role of the Three-Dimensional Structure of the hLXR LDB in Solving Additional LXR Crystals

[0281] Because polypeptides can crystallize in more than one crystal form, the structural coordinates of a hLXR LBD, or portions thereof, as provided by the present invention, are particularly useful in solving the structure of other crystal forms of hLXR and the crystalline forms of other LXRs. The coordinates provided in the present invention can also be used to solve the structure of LXR or LXR LBD mutants (such as those described above), LXR LDB co-complexes, or of the crystalline form of any other protein with significant amino acid sequence homology to any functional domain of LXR.

[0282] XI.A. Determining the Three-Dimensional Structure of a Polypeptide Using the Three-Dimensional Structure of the hLXR LBD as a Template in Molecular Replacement

[0283] One method that can be employed for the purpose of solving additional LXR crystal structures is molecular replacement. See generally, Rossmann (ed), (1972) The Molecular Replacement Method, Gordon & Breach, New York. In the molecular replacement method, the unknown crystal structure, whether it is another crystal form of a LXR or a LXR LBD, (i.e. a LXR or a LXR LBD mutant), or a LXR or a LXR LBD polypeptide complexed with another compound (a “co-complex”), or the crystal of some other protein with significant amino acid sequence homology to any functional region of the a hLXR LBD, can be determined using the hLXR LBD structure coordinates provided in Tables 2-4. This method provides an accurate structural form for the unknown crystal more quickly and efficiently than attempting to determine such information ab initio.

[0284] In addition, in accordance with this invention, LXR or LXR mutants (preferably hLXR or hLXR LBD mutants) can be crystallized in complex with known modulators. The crystal structures of a series of such complexes can then be solved by molecular replacement and compared with that of wild-type hLXR or the wild-type hLXR LBD. Potential sites for modification within the various binding sites of the enzyme can thus be identified. This information provides an additional tool for determining the most efficient binding interactions, for example, increased hydrophobic interactions, between the hLXR LBD and a chemical entity or compound.

[0285] All of the complexes referred to in the present disclosure can be studied using X-ray diffraction techniques (See, e.g., Blundell & Johnson (1985) Method. Enzymol. 114A & 115B, (Wyckoff et al., eds.), Academic Press) and can be refined using computer software, such as the X-PLOR™ program (Brünger, (1992) X-PLOR, Version 3.1. A System for X-ray Crystallography and NMR, Yale University Press, New Haven, Conn.; X-PLOR is available from Molecular Simulations, Inc., San Diego, Calif.). This information can thus be used to optimize known classes of LXR and LXR LBD modulators, and more importantly, to design and synthesize novel classes of LXR and LXR LBD modulators.

[0286] XII. Conclusions

[0287] To aid further drug discovery efforts, the interactions involved in the binding and activation of LXR have been identified. In one aspect, the present invention discloses the atomic structures of the complexes of LXRβ with the activator T317, and the complex of LXRβ with EPC and the second LXXLL (SEQ ID NO: 9) motif (Westin et al., (1998) Nature 395:199-202) of the nuclear receptor co-activator SRC-1. These structures indicate that the LXR binding pocket is large enough to accommodate the oxysterols, and that the LXR protein is flexible enough to accommodate changes in ligand shape. As has been observed in other steroid receptor structures (Brzozowski et al., (1997) Nature 389:753-758; Williams & Sigler, (1998) Nature 393:392-396; Matias et al., (2000) J. Biol. Chem. 275:26164-2617) a relatively small number of polar interactions are responsible for determining receptor specificity, with the tight binding a result of the ligand's close fit within the hydrophobic pocket. The structure of LXRβ with EPC shows some interesting features that can be explored to fully understand the binding and activation effect. These features might be relevant for drug discovery efforts, as binding of oxysterols to LXR does not appear to be sufficient for activation. The LXRβ/T317 structure shows markedly different interactions from those with EPC, indicating that potency does not require the molecule to fill the binding pocket.

Laboratory Examples

[0288] The following Laboratory Examples have been included to illustrate preferred modes of the invention. Certain aspects of the following Laboratory Examples are described in terms of techniques and procedures found or contemplated by the present inventors to work well in the practice of the invention. These Laboratory Examples are exemplified through the use of standard laboratory practices of the inventors. In light of the present disclosure and the general level of skill in the art, those of skill will appreciate that the following Laboratory Examples are intended to be exemplary only and that numerous changes, modifications and alterations can be employed without departing from the spirit and scope of the invention.

Laboratory Example 1 LXR Expression and Purification

[0289] A minimal construct of the human LXRβ LBD (ligand binding domain) containing amino acids 214-462 and a thrombin cleavable his-tag was subcloned into the E. coli expression vector pRSETa (Invitrogen, Carlsbad, Calif.). After transforming into BL21(DE3) E. coli positive transformants were selected overnight at 37° C. on a LB plate containing 100 μg/ml carbenicilin. 3-4 colonies were selected and grown at 25° C. in 30 ml LB with 100 μg/ml carbenicilin, then used to inoculate 12×2L shaker flasks containing 1 liter of Terrific Broth II (Bio 101, Inc., Vista, Calif.) with 100 μg/ml carbenicilin at 2 ml/liter. Cultures were grown overnight at 22° C. without induction and harvested by centrifugation at 5000G for 10 min. Cell pellets were stored frozen at −80° C.

[0290] The original 12 L shaker flask purification was subsequently scaled up for fermenter growths. All steps were performed at 4° C. Cells were resuspended by adding 4× volume of NiA (25 mM imidazole pH 8.0, 150 mM NaCl, 3% 1,2 propane diol), then lysed by three passages through a cell homogenizer (APV Rannie, Copenhagen, Denmark), followed by centrifugation for 1 hour at 40,000 RPM in a Sorvall A641 to clarify the resultant solution.

[0291] The soluble protein was first purified with a 50 ml Ni⁺²-NTA affinity column (Qiagen, Valencia, Calif.), which was scaled up to a 150 ml column for the fermenter cultures. Cell lysate was loaded on to the pre-equilibrated column, followed by a 3-column wash with NiA, a 2-column wash with NiA with 50 mM imidazole, and eluted with a 10 column volume 50-500 mM imidazole gradient. LXR eluted at ˜300 mM imidazole. At this point, peak fractions were pooled and dialyzed against 10 mM Tris pH=8.0, 150 mM NaCl, 0.1 mM EDTA, 5% glycerol, separated into aliquots containing 30 mg of protein each, and stored frozen at −80° C.

[0292] For structural studies of protein compound complexes, protein was thawed and further purified using anion exchange with a 5 ml HiTrap HPQ column (AP Biosystems). After adding the relevant compound, his-tagged LXR was digested overnight at 4° C. with thrombin at a mass ration of 1:500. The digested protein was diluted to 25 mM salt with QO buffer (10 mM Tris pH 8.0, 0.1 mM EDTA, 5% glycerol, 5 mM DTT), and then loaded on to the pre-equilibrated anion exchange column. The column was washed with 3 columns of QO plus 30 mM NaCl followed by a 20-column 0-250 mM NaCl gradient. Complexed LXR usually eluted as a sharp peak at ˜150 mM NaCl. The eluted protein was dialyzed against 10 mM Tris pH 8.0, 0.1 mM EDTA, 5% glycerol, 5 mM DTT, 150 mM NaCl; additional compound was added, and the protein was concentrated to 12-14 mg/ml for crystallization trials.

Laboratory Example 2 Crystallization of a LXR Ligand Binding Domain

[0293] Crystallization trials were carried out using the hanging drop method by mixing 2 μl of protein solution with 2 μl of well buffer. Both the LXRβ/ligand complexes crystallized out of 10-12% PEG 3350-8000 with 0.2M salt at 40° C. Usable LXRβ/T0901317 crystals were obtained from a number of salts including NaF, KF, NaCl, KCl, Na formate, Na acetate, and K acetate. The best LXRβ/EPC (24(S), 25-epoxycholesterol) crystals were obtained with ammonium sulfate and lithium sulfate salts. All crystals took 4-6 weeks to grow. Crystals were frozen in LN₂ after transferring stepwise to a cryo buffer containing the well buffer with 30% PEG 400.

Laboratory Example 3 Structure Determination

[0294] All data was obtained at the IMCA CAT 17 ID beam line at the Advanced Photon Source (APS) at a wavelength of 1 Å on a MAR CCD detector. Crystals of the LXRβ/T0901317 complex diffracted to 2.3 A, and were in the space group P2₁2₁2₁ with unit cell parameters a=60.25 b=82.454, c=123.175. Crystals of the LXRβ/24,25 epoxycholesterol/SRC1 complex diffracted to 2.8 Å, and were in the space group C²²² ₁ with unit cell parameters a=71.17 b=120.01, c=147.56. All diffraction data was integrated and scaled using HKL2000 (Otwinowski & Minor, (1997) Method Enzymol. 276: 307-326). The LXRβ/T0901317 structure was solved by molecular replacement using the program AMoRe with a truncated monomeric form of human RARγ as a search model (Table 5). The LXRβ/EPC/SRC1 structure was solved by molecular replacement using the program AMoRe and a refined LXR A subunit from the LXRβ/T0901317 structure as a search model (Table 3).

[0295] In both complex structures there were two molecules in the asymmetric unit related by a non-crystallographic dyad. In the case of the T317 complex, the two subunits were substantially different, so non-crystallographic averaging could not be utilized. Structures were subjected to multiple rounds of building using QUANTAT™ software (Molecular Simulations Inc., San Diego, Calif.) and refined using CNX software (Molecular Simulations Inc., San Diego, Calif.).

Laboratory Example 4 Mutant Construction and Transactivation Measurements by Transient Transfection

[0296] 4.1 Plasmid Construction

[0297] Wild type and mutant LXR transactivation activity was measured in CV-1 cells. Gal4 expression constructs were prepared using the wild type or mutated ligand binding domains (LBDs) of human LXRα and LXRβ (Lehmann et al., (1997) J. Biol. Chem. 272:3137-3140). Wild type LBDs for LXRα (amino acids 164-447) and LXRβ (amino acids 155-462) were subcloned into the pSG-5 Gal4 vector as a fusion with the Gal4 DNA binding domain as KpnI-BamHI fragments. Single amino acid changes in the wild-type receptor LBD proteins were made by utilizing a two-step PCR technique with the corresponding KpnI and BamHI restriction cut sites incorporated at the 5′ and 3′ ends of the DNA fragment. The mutant DNA fragment was subcloned back in to the original pSG5-Gal4 parental vector.

[0298] A human SRC-1 construct (representing amino acids 1-1005) (Onate et al., (1995) Science 270:1354-1357) was prepared in the pSG5 expression vector (Stratagene Corp., La Jolla, Calif.). The reporter plasmid UAS-tk-SPAP was generated by insertion of five copies of a Gal4 DNA-binding element into pGl2-tk-SPAP. The β-galactosidase expression plasmid pCH110 (Pharmacia, Piscataway, N.J.) was employed as an internal control for transfection efficiency.

[0299] 4.2 Transfection and Drug Delivery

[0300] Transfection mixes contained a total of 80 ng total DNA (2 ng receptor plasmid, 8 ng UAS-tk-SPAP reporter plasmid, 7 ng SRC-1 expression plasmid, 25 ng pCH110, and 38 ng of carrier plasmid (pBluescript, Stratagene, La Jolla, Calif.) and 0.7 μl Lipofectamine (Life Technologies, Inc., Rockville, Md.) were added to each well. After 6 to 18 hours, compounds were added at a concentration of 10 μM and incubated for 18 hours prior to determination of reporter activity.

[0301] 4.3 Reporter Assays

[0302] Alkaline phosphatase activity was assayed by adding 200 μl substrate (7 mM p-nitrophenyl phosphate in 1 M diethanolamine/0.28 M sodium chloride/0.5 mM magnesium chloride, pH 9.85) to each well of the plates, incubating at room temperature, and reading absorbance at 405 nm.

[0303] β-Galactosidase normalization was performed by adding 200 μl of substrate (1.1 mg/ml o-nitrophenyl β-D-galactopyranoside, 0.13% Triton X-100 in 0.1 M sodium phosphate buffer, pH 7.2) to cell plate containing 60 μl of medium, incubating at room temperature, and reading absorbance at 405 nm.

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[0375] WO 84/03564 TABLE 1 CRYSTALLOGRAPHIC DATA AND REFINEMENT Crystal T317 Complex EPC complex Space Group P2₁2₁2₁ C222₁ Unit Cell a = 60.25, b = 82.45 , a = 71.17 b = 120.01, c = 123.18 c = 147.56 α= β= γ= 90° α= β= γ = 90° Resolution Range 30.-2.3 20-2.8 Observations (Unique) 308126 (27968) 126333 (15680) Completeness 95.7 (98.7) 98.3 (99.3) I/σ 29.8 (3.4) 11.6 (3.1) Rmerge %  5.2 (29)  5.5 (35) Refinement Statistics Resolution Range 30.-2.3 20-2.8 % R_(free) 7 7 R_(cryst) R_(free) 22.1 (26.2) 21.6 (27.5) Protein atoms 3724 4124 Ligand atoms 93 58 Water Molecules 334 101 RMSD bonds/angles 0.0085/1.675 0.0171/1.807

[0376] TABLE 2 ATOMIC COORDINATE DATA FOR CRYSTALLIZED HUMAN LXR IN COMPLEX WITH SRC1 and EPC ATOM ATOM TYPE RESIDUE PROTEIN # # X Y Z OCC B 1 CB ALA A 218 28.344 16.106 96.698 1.00 55.76 2 C ALA A 218 29.653 18.044 95.802 1.00 55.24 3 O ALA A 218 30.106 18.364 94.699 1.00 54.28 4 N ALA A 218 27.664 17.216 94.572 1.00 64.79 5 CA ALA A 218 28.265 17.434 95.930 1.00 58.73 6 N ALA A 219 30.314 18.224 96.938 1.00 52.70 7 CA ALA A 219 31.664 18.775 96.947 1.00 51.55 8 CB ALA A 219 31.632 20.293 97.099 1.00 46.87 9 C ALA A 219 32.490 18.142 98.068 1.00 51.86 10 O ALA A 219 31.990 17.352 98.874 1.00 55.04 11 N LEU A 220 33.768 18.475 98.111 1.00 51.33 12 CA LEU A 220 34.644 17.936 99.143 1.00 45.85 13 CB LEU A 220 36.098 18.230 98.786 1.00 42.81 14 CG LEU A 220 36.953 16.990 98.618 1.00 45.64 15 CD1 LEU A 220 36.552 16.276 97.358 1.00 47.27 16 CD2 LEU A 220 38.412 17.371 98.575 1.00 40.99 17 C LEU A 220 34.316 18.571 100.497 1.00 43.50 18 O LEU A 220 34.040 19.755 100.599 1.00 47.45 19 N THR A 221 34.328 17.777 101.546 1.00 41.43 20 CA THR A 221 34.062 18.325 102.870 1.00 39.33 21 CB THR A 221 33.764 17.233 103.878 1.00 38.56 22 OG1 THR A 221 34.797 16.239 103.820 1.00 37.25 23 CG2 THR A 221 32.401 16.603 103.572 1.00 15.24 24 C THR A 221 35.317 19.037 103.331 1.00 39.68 25 O THR A 221 36.431 18.689 102.928 1.00 45.38 26 N ALA A 222 35.152 20.045 104.166 1.00 37.55 27 CA ALA A 222 36.325 20.774 104.604 1.00 37.06 28 CB ALA A 222 35.912 21.793 105.621 1.00 38.76 29 C ALA A 222 37.331 19.767 105.193 1.00 32.94 30 O ALA A 222 38.550 19.898 105.059 1.00 28.56 31 N ALA A 223 36.784 18.726 105.802 1.00 27.58 32 CA ALA A 223 37.588 17.699 106.412 1.00 23.17 33 CB ALA A 223 36.696 16.774 107.142 1.00 9.46 34 C ALA A 223 38.372 16.964 105.339 1.00 25.13 35 O ALA A 223 39.596 17.006 105.347 1.00 29.33 36 N GLN A 224 37.662 16.300 104.426 1.00 24.64 37 CA GLN A 224 38.289 15.570 103.341 1.00 30.36 38 CB GLN A 224 37.234 15.098 102.343 1.00 22.67 39 CG GLN A 224 36.338 14.029 102.858 1.00 32.52 40 CD GLN A 224 35.492 13.449 101.760 1.00 36.79 41 OE1 GLN A 224 34.638 14.145 101.183 1.00 33.52 42 NE2 GLN A 224 35.726 12.171 101.447 1.00 46.08 43 C GLN A 224 39.342 16.409 102.589 1.00 34.36 44 O GLN A 224 40.468 15.970 102.294 1.00 39.02 45 N GLU A 225 38.968 17.618 102.238 1.00 32.23 46 CA GLU A 225 39.909 18.444 101.544 1.00 31.48 47 CB GLU A 225 39.333 19.833 101.384 1.00 42.03 48 CG GLU A 225 39.876 20.576 100.206 1.00 52.07 49 CD GLU A 225 38.993 21.761 99.842 1.00 69.24 50 OE1 GLU A 225 37.812 21.804 100.288 1.00 68.23 51 OE2 GLU A 225 39.477 22.643 99.098 1.00 72.72 52 C GLU A 225 41.187 18.495 102.360 1.00 27.39 53 O GLU A 225 42.255 18.255 101.831 1.00 29.04 54 N LEU A 226 41.053 18.777 103.656 1.00 24.43 55 CA LEU A 226 42.187 18.897 104.560 1.00 20.16 56 CB LEU A 226 41.743 19.318 105.966 1.00 19.25 57 CG LEU A 226 42.892 19.672 106.914 1.00 15.29 58 CD1 LEU A 226 43.785 20.719 106.248 1.00 20.10 59 CD2 LEU A 226 42.349 20.229 108.205 1.00 25.61 60 C LEU A 226 42.939 17.605 104.640 1.00 20.54 61 O LEU A 226 44.159 17.598 104.723 1.00 21.73 62 N MET A 227 42.216 16.498 104.619 1.00 18.60 63 CA MET A 227 42.866 15.199 104.633 1.00 16.23 64 CB MET A 227 41.798 14.120 104.774 1.00 9.90 65 CG MET A 227 42.353 12.738 104.934 1.00 22.30 66 SD MET A 227 42.829 12.043 103.385 1.00 30.16 67 CE MET A 227 41.187 11.531 102.760 1.00 36.03 68 C MET A 227 43.659 15.005 103.291 1.00 20.80 69 O MET A 227 44.838 14.659 103.298 1.00 18.00 70 N ILE A 228 43.006 15.230 102.143 1.00 21.23 71 CA ILE A 228 43.658 15.076 100.846 1.00 15.74 72 CB ILE A 228 42.682 15.383 99.705 1.00 18.87 73 CG2 ILE A 228 43.387 15.298 98.377 1.00 5.25 74 CG1 ILE A 228 41.542 14.363 99.720 1.00 12.45 75 CD1 ILE A 228 40.681 14.448 98.519 1.00 6.20 76 C ILE A 228 44.895 15.947 100.733 1.00 15.29 77 O ILE A 228 45.887 15.530 100.143 1.00 11.10 78 N GLN A 229 44.838 17.164 101.276 1.00 16.77 79 CA GLN A 229 46.021 18.028 101.289 1.00 20.67 80 CB GLN A 229 45.658 19.408 101.773 1.00 16.16 81 CG GLN A 229 45.235 20.307 100.632 1.00 34.86 82 CD GLN A 229 44.291 21.436 101.072 1.00 46.19 83 OE1 GLN A 229 44.482 22.067 102.122 1.00 34.04 84 NE2 GLN A 229 43.261 21.689 100.261 1.00 54.62 85 C GLN A 229 47.082 17.389 102.215 1.00 24.70 86 O GLN A 229 48.253 17.317 101.879 1.00 29.53 87 N GLN A 230 46.649 16.908 103.373 1.00 27.75 88 CA GLN A 230 47.488 16.213 104.345 1.00 23.86 89 CB GLN A 230 46.555 15.463 105.299 1.00 40.92 90 CG GLN A 230 47.000 15.206 106.716 1.00 55.66 91 CD GLN A 230 45.786 15.006 107.676 1.00 58.41 92 OE1 GLN A 230 44.927 15.880 107.803 1.00 52.62 93 NE2 GLN A 230 45.731 13.865 108.341 1.00 62.25 94 C GLN A 230 48.313 15.171 103.567 1.00 25.51 95 O GLN A 230 49.552 15.245 103.525 1.00 24.06 96 N LEU A 231 47.625 14.202 102.943 1.00 21.46 97 CA LEU A 231 48.301 13.139 102.232 1.00 15.10 98 CB LEU A 231 47.308 12.176 101.635 1.00 16.30 99 CG LEU A 231 46.835 11.054 102.539 1.00 14.70 100 CD1 LEU A 231 46.032 10.109 101.662 1.00 8.73 101 CD2 LEU A 231 48.022 10.358 103.175 1.00 5.25 102 C LEU A 231 49.236 13.598 101.153 1.00 17.13 103 O LEU A 231 50.390 13.147 101.103 1.00 15.46 104 N VAL A 232 48.762 14.491 100.281 1.00 16.95 105 CA VAL A 232 49.618 14.966 99.196 1.00 15.39 106 CB VAL A 232 48.910 15.936 98.252 1.00 14.04 107 CG1 VAL A 232 49.911 16.605 97.355 1.00 5.25 108 CG2 VAL A 232 47.911 15.167 97.411 1.00 11.19 109 C VAL A 232 50.856 15.624 99.728 1.00 17.28 110 O VAL A 232 51.942 15.446 99.155 1.00 19.63 111 N ALA A 233 50.711 16.371 100.824 1.00 15.96 112 CA ALA A 233 51.888 17.022 101.431 1.00 18.52 113 CB ALA A 233 51.455 18.052 102.445 1.00 8.26 114 C ALA A 233 52.835 15.979 102.086 1.00 19.61 115 O ALA A 233 54.056 15.958 101.822 1.00 16.98 116 N ALA A 234 52.281 15.112 102.935 1.00 25.82 117 CA ALA A 234 53.113 14.071 103.562 1.00 27.97 118 CB ALA A 234 52.231 13.130 104.444 1.00 20.72 119 C ALA A 234 53.870 13.249 102.486 1.00 25.67 120 O ALA A 234 55.023 12.833 102.703 1.00 24.36 121 N GLN A 235 53.214 13.017 101.341 1.00 22.92 122 CA GLN A 235 53.837 12.259 100.257 1.00 25.97 123 CB GLN A 235 52.802 11.886 99.207 1.00 21.78 124 CG GLN A 235 53.336 11.420 97.871 1.00 28.41 125 CD GLN A 235 52.180 10.969 96.901 1.00 47.75 126 OE1 GLN A 235 51.692 9.827 96.976 1.00 41.32 127 NE2 GLN A 235 51.735 11.883 96.010 1.00 47.47 128 C GLN A 235 54.983 13.028 99.629 1.00 25.13 129 O GLN A 235 55.934 12.453 99.163 1.00 29.39 130 N LEU A 236 54.893 14.343 99.657 1.00 24.34 131 CA LEU A 236 55.930 15.200 99.122 1.00 20.09 132 CB LEU A 236 55.352 16.601 98.944 1.00 10.48 133 CG LEU A 236 56.263 17.528 98.144 1.00 13.40 134 CD1 LEU A 236 56.555 16.915 96.746 1.00 5.25 135 CD2 LEU A 236 55.580 18.860 98.025 1.00 6.03 136 C LEU A 236 57.137 15.249 100.103 1.00 19.25 137 O LEU A 236 58.314 15.081 99.728 1.00 14.99 138 N GLN A 237 56.842 15.478 101.370 1.00 17.73 139 CA GLN A 237 57.912 15.546 102.341 1.00 22.68 140 CB GLN A 237 57.343 16.022 103.675 1.00 26.67 141 CG GLN A 237 57.937 17.332 104.108 1.00 47.77 142 CD GLN A 237 59.451 17.329 103.931 1.00 59.33 143 OE1 GLN A 237 60.158 16.496 104.516 1.00 65.55 144 NE2 GLN A 237 59.953 18.246 103.110 1.00 63.55 145 C GLN A 237 58.711 14.241 102.527 1.00 18.77 146 O GLN A 237 59.930 14.258 102.665 1.00 12.71 147 N CYS A 238 58.019 13.107 102.503 1.00 18.52 148 CA CYS A 238 58.692 11.837 102.720 1.00 18.81 149 CB CYS A 238 57.679 10.681 102.932 1.00 10.34 150 SG CYS A 238 56.626 10.868 104.440 1.00 14.23 151 C CYS A 238 59.584 11.589 101.537 1.00 15.55 152 O CYS A 238 60.658 11.034 101.689 1.00 14.18 153 N ASN A 239 59.144 12.032 100.362 1.00 16.15 154 CA ASN A 239 59.940 11.852 99.160 1.00 18.70 155 CB ASN A 239 59.146 12.265 97.909 1.00 15.21 156 CG ASN A 239 59.912 11.937 96.576 1.00 26.14 157 OD1 ASN A 239 60.150 10.771 96.255 1.00 24.57 158 ND2 ASN A 239 60.306 12.973 95.825 1.00 12.25 159 C ASN A 239 61.237 12.692 99.281 1.00 21.54 160 O ASN A 239 62.351 12.205 99.044 1.00 20.85 161 N LYS A 240 61.098 13.954 99.671 1.00 25.84 162 CA LYS A 240 62.270 14.804 99.837 1.00 28.12 163 CB LYS A 240 61.852 16.198 100.326 1.00 27.47 164 CG LYS A 240 61.294 17.128 99.251 1.00 39.34 165 CD LYS A 240 61.175 18.563 99.770 1.00 42.46 166 CE LYS A 240 60.827 19.600 98.682 1.00 38.29 167 NZ LYS A 240 60.961 21.029 99.186 1.00 34.56 168 C LYS A 240 63.220 14.163 100.856 1.00 29.54 169 O LYS A 240 64.428 14.092 100.655 1.00 31.96 170 N ARG A 241 62.655 13.657 101.938 1.00 31.83 171 CA ARG A 241 63.464 13.066 102.972 1.00 36.01 172 CB ARG A 241 62.639 12.909 104.235 1.00 45.49 173 CG ARG A 241 63.457 13.137 105.514 1.00 61.86 174 CD ARG A 241 62.558 13.336 106.725 1.00 73.10 175 NE ARG A 241 61.443 12.384 106.713 1.00 80.71 176 CZ ARG A 241 60.173 12.713 106.481 1.00 79.67 177 NH1 ARG A 241 59.844 13.973 106.246 1.00 80.95 178 NH2 ARG A 241 59.228 11.780 106.485 1.00 81.60 179 C ARG A 241 64.143 11.746 102.643 1.00 33.51 180 O ARG A 241 64.879 11.214 103.447 1.00 35.57 181 N SER A 242 63.933 11.223 101.455 1.00 31.82 182 CA SER A 242 64.566 9.975 101.102 1.00 27.53 183 CB SER A 242 63.518 8.881 100.876 1.00 16.61 184 OG SER A 242 63.011 8.316 102.079 1.00 24.71 185 C SER A 242 65.397 10.141 99.835 1.00 31.35 186 O SER A 242 66.444 9.486 99.685 1.00 36.01 187 N PHE A 243 64.948 11.015 98.929 1.00 28.64 188 CA PHE A 243 65.646 11.191 97.679 1.00 28.31 189 CB PHE A 243 64.738 10.714 96.551 1.00 26.61 190 CG PHE A 243 64.560 9.208 96.505 1.00 19.50 191 CD1 PHE A 243 65.604 8.381 96.129 1.00 26.67 192 CD2 PHE A 243 63.368 8.621 96.873 1.00 26.29 193 CE1 PHE A 243 65.466 6.989 96.127 1.00 28.84 194 CE2 PHE A 243 63.220 7.219 96.872 1.00 25.73 195 CZ PHE A 243 64.276 6.409 96.495 1.00 22.93 196 C PHE A 243 66.217 12.572 97.378 1.00 33.43 197 O PHE A 243 66.665 12.840 96.274 1.00 33.13 198 N SER A 244 66.219 13.448 98.368 1.00 38.40 199 CA SER A 244 66.809 14.751 98.167 1.00 43.23 200 CB SER A 244 66.403 15.675 99.279 1.00 37.51 201 OG SER A 244 65.058 16.045 99.054 1.00 61.16 202 C SER A 244 68.316 14.621 98.159 1.00 47.85 203 O SER A 244 69.009 15.613 97.995 1.00 53.73 204 N ASP A 245 68.819 13.400 98.339 1.00 50.07 205 CA ASP A 245 70.258 13.149 98.349 1.00 49.87 206 CB ASP A 245 70.710 12.722 99.756 1.00 47.69 207 CG ASP A 245 70.531 13.813 100.766 1.00 47.80 208 OD1 ASP A 245 69.384 14.271 100.958 1.00 52.92 209 OD2 ASP A 245 71.538 14.224 101.360 1.00 48.83 210 C ASP A 245 70.603 12.074 97.328 1.00 50.73 211 O ASP A 245 70.188 10.939 97.492 1.00 54.30 212 N GLN A 246 71.345 12.438 96.285 1.00 49.92 213 CA GLN A 246 71.698 11.485 95.270 1.00 53.86 214 CB GLN A 246 72.615 12.156 94.241 1.00 56.38 215 CG GLN A 246 71.730 12.876 93.183 1.00 66.03 216 CD GLN A 246 72.205 14.274 92.816 1.00 65.94 217 OE1 GLN A 246 71.536 15.012 92.082 1.00 58.93 218 NE2 GLN A 246 73.366 14.644 93.328 1.00 69.59 219 C GLN A 246 72.298 10.287 95.978 1.00 52.91 220 O GLN A 246 73.502 10.241 96.261 1.00 58.02 221 N PRO A 247 71.436 9.294 96.264 1.00 49.01 222 CD PRO A 247 70.165 9.186 95.511 1.00 44.83 223 CA PRO A 247 71.769 8.053 96.969 1.00 46.95 224 CB PRO A 247 70.749 7.035 96.473 1.00 47.91 225 CG PRO A 247 69.908 7.738 95.465 1.00 47.27 226 C PRO A 247 73.168 7.540 96.878 1.00 49.19 227 O PRO A 247 73.844 7.750 95.886 1.00 46.72 228 N ALA A 248 73.576 6.865 97.951 1.00 52.55 229 CA ALA A 248 74.918 6.318 98.045 1.00 53.13 230 CB ALA A 248 75.411 6.320 99.511 1.00 58.29 231 C ALA A 248 74.928 4.917 97.499 1.00 49.47 232 O ALA A 248 75.440 4.005 98.150 1.00 55.81 233 N VAL A 249 74.408 4.759 96.290 1.00 41.18 234 CA VAL A 249 74.342 3.444 95.717 1.00 40.05 235 CB VAL A 249 72.916 3.094 95.363 1.00 39.10 236 CG1 VAL A 249 72.026 3.387 96.522 1.00 32.01 237 CG2 VAL A 249 72.482 3.872 94.129 1.00 38.08 238 C VAL A 249 75.212 3.223 94.495 1.00 40.64 239 O VAL A 249 75.456 4.147 93.722 1.00 41.34 240 N THR A 250 75.680 1.982 94.368 1.00 36.01 241 CA THR A 250 76.510 1.535 93.283 1.00 37.57 242 CB THR A 250 76.282 0.055 93.103 1.00 37.83 243 OG1 THR A 250 76.392 −0.569 94.376 1.00 33.70 244 CG2 THR A 250 77.301 −0.554 92.146 1.00 39.78 245 C THR A 250 76.104 2.262 92.013 1.00 41.06 246 O THR A 250 74.927 2.280 91.655 1.00 43.68 247 N PRO A 251 77.068 2.862 91.305 1.00 42.94 248 CD PRO A 251 78.386 3.265 91.818 1.00 44.90 249 CA PRO A 251 76.757 3.590 90.065 1.00 45.01 250 CB PRO A 251 78.025 4.414 89.831 1.00 40.94 251 CG PRO A 251 78.528 4.647 91.208 1.00 44.44 252 C PRO A 251 76.405 2.713 88.848 1.00 44.95 253 O PRO A 251 76.944 1.628 88.678 1.00 47.75 254 N TRP A 252 75.511 3.203 88.005 1.00 40.56 255 CA TRP A 252 75.147 2.469 86.826 1.00 41.27 256 CB TRP A 252 73.933 3.143 86.195 1.00 45.59 257 CG TRP A 252 73.292 2.423 85.043 1.00 42.31 258 CD2 TRP A 252 72.337 1.352 85.129 1.00 49.14 259 CE2 TRP A 252 71.892 1.079 83.824 1.00 49.10 260 CE3 TRP A 252 71.836 0.578 86.183 1.00 47.81 261 CD1 TRP A 252 73.379 2.753 83.738 1.00 36.71 262 NE1 TRP A 252 72.534 1.965 82.993 1.00 49.62 263 CZ2 TRP A 252 70.933 0.092 83.541 1.00 43.00 264 CZ3 TRP A 252 70.888 −0.402 85.897 1.00 47.13 265 CH2 TRP A 252 70.461 −0.643 84.585 1.00 34.10 266 C TRP A 252 76.336 2.474 85.859 1.00 42.16 267 O TRP A 252 76.880 3.528 85.521 1.00 39.92 268 N PRO A 253 76.775 1.288 85.428 1.00 44.33 269 CD PRO A 253 76.530 −0.001 86.089 1.00 39.51 270 CA PRO A 253 77.905 1.217 84.493 1.00 50.55 271 CB PRO A 253 78.264 −0.266 84.476 1.00 46.99 272 CG PRO A 253 77.769 −0.777 85.744 1.00 44.13 273 C PRO A 253 77.552 1.725 83.089 1.00 54.78 274 O PRO A 253 76.562 2.427 82.902 1.00 54.13 275 N LEU A 254 78.364 1.327 82.108 1.00 61.04 276 CA LEU A 254 78.152 1.721 80.717 1.00 65.82 277 CB LEU A 254 78.874 3.041 80.447 1.00 64.47 278 CG LEU A 254 80.379 2.884 80.214 1.00 66.62 279 CD1 LEU A 254 80.602 2.624 78.743 1.00 61.12 280 CD2 LEU A 254 81.118 4.131 80.633 1.00 68.68 281 C LEU A 254 78.630 0.649 79.705 1.00 69.59 282 O LEU A 254 79.495 −0.198 80.002 1.00 72.20 283 N ALA A 259 81.190 −4.549 77.975 1.00 75.57 284 CA ALA A 259 80.352 −4.942 79.099 1.00 80.27 285 CB ALA A 259 78.962 −5.344 78.616 1.00 81.51 286 C ALA A 259 80.969 −6.073 79.932 1.00 81.62 287 O ALA A 259 82.008 −6.638 79.582 1.00 83.94 288 N SER A 260 80.305 −6.447 81.017 1.00 82.06 289 CA SER A 260 80.905 −7.445 81.859 1.00 81.46 290 CB SER A 260 82.196 −6.850 82.398 1.00 84.53 291 OG SER A 260 82.176 −5.432 82.266 1.00 83.98 292 C SER A 260 80.046 −7.901 83.006 1.00 81.71 293 O SER A 260 78.920 −7.458 83.166 1.00 84.27 294 N ARG A 261 80.617 −8.782 83.816 1.00 82.01 295 CA ARG A 261 79.938 −9.305 84.980 1.00 81.77 296 CB ARG A 261 80.493 −10.693 85.311 1.00 82.72 297 CG ARG A 261 80.331 −11.109 86.760 1.00 84.08 298 CD ARG A 261 81.677 −11.377 87.407 1.00 84.50 299 NE ARG A 261 81.918 −10.602 88.627 1.00 82.67 300 CZ ARG A 261 82.978 −9.818 88.788 1.00 82.29 301 NH1 ARG A 261 83.856 −9.715 87.813 1.00 81.99 302 NH2 ARG A 261 83.176 −9.162 89.919 1.00 82.23 303 C ARG A 261 80.064 −8.366 86.181 1.00 80.36 304 O ARG A 261 79.656 −8.718 87.268 1.00 83.44 305 N ASP A 262 80.610 −7.169 85.986 1.00 79.83 306 CA ASP A 262 80.751 −6.212 87.090 1.00 79.82 307 CB ASP A 262 82.137 −5.542 87.101 1.00 83.43 308 CG ASP A 262 82.926 −5.858 88.369 1.00 84.30 309 OD1 ASP A 262 83.099 −7.063 88.672 1.00 83.98 310 OD2 ASP A 262 83.376 −4.908 89.056 1.00 83.90 311 C ASP A 262 79.695 −5.151 86.972 1.00 79.08 312 O ASP A 262 79.499 −4.362 87.878 1.00 82.58 313 N ALA A 263 79.017 −5.140 85.835 1.00 77.24 314 CA ALA A 263 77.953 −4.182 85.612 1.00 74.16 315 CB ALA A 263 78.086 −3.558 84.236 1.00 75.62 316 C ALA A 263 76.657 −4.981 85.728 1.00 71.38 317 O ALA A 263 75.633 −4.485 86.230 1.00 70.95 318 N ARG A 264 76.718 −6.239 85.300 1.00 65.44 319 CA ARG A 264 75.545 −7.075 85.352 1.00 64.95 320 CB ARG A 264 75.782 −8.370 84.582 1.00 68.61 321 CG ARG A 264 74.496 −9.125 84.278 1.00 77.09 322 CD ARG A 264 74.746 −10.578 84.014 1.00 83.87 323 NE ARG A 264 74.515 −11.430 85.182 1.00 84.70 324 CZ ARG A 264 74.299 −12.732 85.081 1.00 84.41 325 NH1 ARG A 264 74.286 −13.282 83.883 1.00 83.98 326 NH2 ARG A 264 74.103 −13.475 86.162 1.00 85.25 327 C ARG A 264 75.268 −7.371 86.816 1.00 61.13 328 O ARG A 264 74.145 −7.746 87.199 1.00 60.64 329 N GLN A 265 76.309 −7.196 87.628 1.00 57.82 330 CA GLN A 265 76.197 −7.443 89.058 1.00 53.76 331 CB GLN A 265 77.310 −8.360 89.559 1.00 57.49 332 CG GLN A 265 76.829 −9.357 90.602 1.00 67.60 333 CD GLN A 265 75.542 −10.053 90.188 1.00 75.71 334 OE1 GLN A 265 74.446 −9.525 90.398 1.00 82.27 335 NE2 GLN A 265 75.669 −11.227 89.573 1.00 73.63 336 C GLN A 265 76.202 −6.145 89.806 1.00 48.27 337 O GLN A 265 75.943 −6.112 90.993 1.00 50.20 338 N GLN A 266 76.483 −5.067 89.089 1.00 44.20 339 CA GLN A 266 76.457 −3.726 89.667 1.00 39.57 340 CB GLN A 266 77.486 −2.803 89.028 1.00 43.03 341 CG GLN A 266 78.772 −2.635 89.794 1.00 53.90 342 CD GLN A 266 79.708 −1.641 89.098 1.00 62.90 343 OE1 GLN A 266 79.394 −0.451 89.007 1.00 60.13 344 NE2 GLN A 266 80.851 −2.128 88.595 1.00 60.44 345 C GLN A 266 75.082 −3.165 89.347 1.00 36.73 346 O GLN A 266 74.412 −2.637 90.214 1.00 34.43 347 N ARG A 267 74.659 −3.291 88.090 1.00 36.08 348 CA ARG A 267 73.365 −2.768 87.683 1.00 34.02 349 CB ARG A 267 73.007 −3.181 86.271 1.00 28.42 350 CG ARG A 267 73.888 −2.569 85.248 1.00 32.75 351 CD ARG A 267 73.805 −3.337 83.932 1.00 36.45 352 NE ARG A 267 74.755 −2.825 82.947 1.00 46.52 353 CZ ARG A 267 75.042 −3.431 81.810 1.00 45.30 354 NH1 ARG A 267 74.451 −4.573 81.518 1.00 54.30 355 NH2 ARG A 267 75.914 −2.882 80.978 1.00 54.13 356 C ARG A 267 72.354 −3.321 88.616 1.00 32.85 357 O ARG A 267 71.542 −2.585 89.167 1.00 38.40 358 N PHE A 268 72.413 −4.626 88.826 1.00 29.74 359 CA PHE A 268 71.448 −5.243 89.716 1.00 25.18 360 CB PHE A 268 71.669 −6.741 89.728 1.00 26.06 361 CG PHE A 268 70.906 −7.460 90.784 1.00 24.07 362 CD1 PHE A 268 71.363 −7.455 92.103 1.00 23.22 363 CD2 PHE A 268 69.758 −8.173 90.454 1.00 16.43 364 CE1 PHE A 268 70.688 −8.150 93.084 1.00 31.48 365 CE2 PHE A 268 69.049 −8.895 91.427 1.00 17.72 366 CZ PHE A 268 69.510 −8.888 92.745 1.00 34.32 367 C PHE A 268 71.523 −4.668 91.131 1.00 22.70 368 O PHE A 268 70.494 −4.537 91.820 1.00 19.53 369 N ALA A 269 72.741 −4.352 91.566 1.00 15.63 370 CA ALA A 269 72.930 −3.772 92.891 1.00 16.25 371 CB ALA A 269 74.408 −3.722 93.246 1.00 5.25 372 C ALA A 269 72.335 −2.351 92.884 1.00 18.99 373 O ALA A 269 71.718 −1.906 93.883 1.00 15.16 374 N HIS A 270 72.489 −1.670 91.738 1.00 18.91 375 CA HIS A 270 71.965 −0.321 91.562 1.00 19.16 376 CB HIS A 270 72.239 0.177 90.133 1.00 18.47 377 CG HIS A 270 71.953 1.641 89.932 1.00 24.67 378 CD2 HIS A 270 70.993 2.282 89.213 1.00 20.88 379 ND1 HIS A 270 72.663 2.630 90.579 1.00 21.21 380 CE1 HIS A 270 72.149 3.811 90.277 1.00 24.56 381 NE2 HIS A 270 71.134 3.626 89.449 1.00 23.56 382 C HIS A 270 70.444 −0.265 91.869 1.00 20.09 383 O HIS A 270 69.997 0.578 92.671 1.00 19.20 384 N PHE A 271 69.670 −1.161 91.246 1.00 17.60 385 CA PHE A 271 68.235 −1.190 91.452 1.00 12.83 386 CB PHE A 271 67.558 −2.153 90.474 1.00 13.28 387 CG PHE A 271 67.365 −1.602 89.089 1.00 15.11 388 CD1 PHE A 271 66.499 −2.201 88.224 1.00 21.67 389 CD2 PHE A 271 68.069 −0.514 88.649 1.00 19.45 390 CE1 PHE A 271 66.340 −1.715 86.923 1.00 33.27 391 CE2 PHE A 271 67.921 −0.026 87.361 1.00 23.53 392 CZ PHE A 271 67.062 −0.622 86.500 1.00 19.54 393 C PHE A 271 67.934 −1.632 92.872 1.00 15.62 394 O PHE A 271 67.206 −0.941 93.599 1.00 13.63 395 N THR A 272 68.508 −2.771 93.272 1.00 17.50 396 CA THR A 272 68.275 −3.325 94.605 1.00 21.01 397 CB THR A 272 69.110 −4.569 94.864 1.00 21.69 398 OG1 THR A 272 70.479 −4.289 94.562 1.00 21.21 399 CG2 THR A 272 68.589 −5.712 94.031 1.00 22.74 400 C THR A 272 68.541 −2.339 95.728 1.00 22.06 401 O THR A 272 67.720 −2.256 96.694 1.00 13.99 402 N GLU A 273 69.659 −1.598 95.593 1.00 21.82 403 CA GLU A 273 70.044 −0.592 96.600 1.00 22.04 404 CB GLU A 273 71.505 −0.134 96.432 1.00 16.72 405 CG GLU A 273 72.527 −1.268 96.656 1.00 20.48 406 CD GLU A 273 73.954 −0.888 96.301 1.00 32.58 407 OE1 GLU A 273 74.798 −1.820 96.156 1.00 23.16 408 OE2 GLU A 273 74.237 0.335 96.163 1.00 34.71 409 C GLU A 273 69.114 0.604 96.571 1.00 18.71 410 O GLU A 273 68.849 1.207 97.616 1.00 20.97 411 N LEU A 274 68.595 0.926 95.385 1.00 16.51 412 CA LEU A 274 67.663 2.043 95.255 1.00 14.99 413 CB LEU A 274 67.495 2.463 93.796 1.00 11.12 414 CG LEU A 274 68.698 3.147 93.150 1.00 13.55 415 CD1 LEU A 274 68.600 3.124 91.642 1.00 5.25 416 CD2 LEU A 274 68.776 4.556 93.678 1.00 20.85 417 C LEU A 274 66.321 1.591 95.837 1.00 19.28 418 O LEU A 274 65.687 2.291 96.614 1.00 24.78 419 N ALA A 275 65.882 0.395 95.496 1.00 21.07 420 CA ALA A 275 64.624 −0.091 96.054 1.00 20.24 421 CB ALA A 275 64.417 −1.544 95.647 1.00 14.28 422 C ALA A 275 64.582 0.046 97.593 1.00 20.13 423 O ALA A 275 63.547 0.420 98.159 1.00 15.46 424 N ILE A 276 65.693 −0.285 98.263 1.00 20.36 425 CA ILE A 276 65.769 −0.177 99.725 1.00 20.48 426 CB ILE A 276 67.244 −0.373 100.282 1.00 22.98 427 CG2 ILE A 276 67.357 0.091 101.688 1.00 5.25 428 CG1 ILE A 276 67.626 −1.848 100.300 1.00 13.96 429 CD1 ILE A 276 69.078 −2.061 100.525 1.00 5.37 430 C ILE A 276 65.271 1.199 100.119 1.00 22.12 431 O ILE A 276 64.304 1.330 100.848 1.00 26.12 432 N ILE A 277 65.932 2.233 99.630 1.00 21.56 433 CA ILE A 277 65.513 3.585 99.969 1.00 21.63 434 CB ILE A 277 66.224 4.638 99.059 1.00 21.92 435 CG2 ILE A 277 65.803 6.046 99.432 1.00 6.60 436 CG1 ILE A 277 67.733 4.455 99.182 1.00 19.32 437 CD1 ILE A 277 68.526 5.432 98.388 1.00 18.27 438 C ILE A 277 64.003 3.666 99.790 1.00 22.66 439 O ILE A 277 63.294 4.193 100.649 1.00 23.75 440 N SER A 278 63.512 3.128 98.675 1.00 21.69 441 CA SER A 278 62.074 3.158 98.421 1.00 25.15 442 CB SER A 278 61.729 2.477 97.092 1.00 27.78 443 OG SER A 278 60.337 2.601 96.802 1.00 14.94 444 C SER A 278 61.270 2.518 99.583 1.00 24.56 445 O SER A 278 60.235 3.081 100.039 1.00 26.24 446 N VAL A 279 61.737 1.371 100.074 1.00 19.27 447 CA VAL A 279 61.048 0.764 101.194 1.00 16.83 448 CB VAL A 279 61.719 −0.529 101.651 1.00 9.75 449 CG1 VAL A 279 60.929 −1.142 102.780 1.00 5.43 450 CG2 VAL A 279 61.760 −1.491 100.509 1.00 7.30 451 C VAL A 279 61.004 1.741 102.366 1.00 17.92 452 O VAL A 279 59.959 1.894 103.019 1.00 20.05 453 N GLN A 280 62.118 2.432 102.616 1.00 17.87 454 CA GLN A 280 62.178 3.382 103.738 1.00 22.98 455 CB GLN A 280 63.613 3.887 103.939 1.00 22.68 456 CG GLN A 280 64.583 2.771 104.299 1.00 25.49 457 CD GLN A 280 66.035 3.158 104.103 1.00 29.97 458 OE1 GLN A 280 66.337 4.262 103.637 1.00 39.81 459 NE2 GLN A 280 66.951 2.246 104.459 1.00 28.32 460 C GLN A 280 61.232 4.566 103.550 1.00 21.90 461 O GLN A 280 60.701 5.078 104.521 1.00 13.34 462 N GLU A 281 61.018 4.977 102.292 1.00 23.40 463 CA GLU A 281 60.131 6.097 101.978 1.00 20.00 464 CB GLU A 281 60.261 6.487 100.530 1.00 14.61 465 CG GLU A 281 59.269 7.591 100.132 1.00 21.34 466 CD GLU A 281 59.364 7.998 98.655 1.00 17.98 467 OE1 GLU A 281 58.533 8.862 98.239 1.00 23.30 468 OE2 GLU A 281 60.253 7.464 97.918 1.00 23.51 469 C GLU A 281 58.705 5.622 102.209 1.00 22.73 470 O GLU A 281 57.868 6.333 102.846 1.00 19.39 471 N ILE A 282 58.425 4.420 101.679 1.00 20.62 472 CA ILE A 282 57.108 3.827 101.853 1.00 17.79 473 CB ILE A 282 57.063 2.501 101.196 1.00 12.76 474 CG2 ILE A 282 55.928 1.682 101.785 1.00 13.17 475 CG1 ILE A 282 56.895 2.717 99.685 1.00 10.52 476 CD1 ILE A 282 56.885 1.414 98.819 1.00 7.32 477 C ILE A 282 56.740 3.700 103.347 1.00 16.55 478 O ILE A 282 55.686 4.193 103.791 1.00 12.54 479 N VAL A 283 57.614 3.063 104.126 1.00 14.35 480 CA VAL A 283 57.353 2.949 105.545 1.00 17.95 481 CB VAL A 283 58.496 2.274 106.273 1.00 11.99 482 CG1 VAL A 283 58.266 2.361 107.794 1.00 5.25 483 CG2 VAL A 283 58.576 0.824 105.793 1.00 11.23 484 C VAL A 283 57.124 4.309 106.185 1.00 20.91 485 O VAL A 283 56.169 4.523 106.986 1.00 23.47 486 N ASP A 284 58.001 5.236 105.814 1.00 23.66 487 CA ASP A 284 57.948 6.601 106.326 1.00 22.91 488 CB ASP A 284 59.182 7.355 105.841 1.00 17.43 489 CG ASP A 284 59.127 8.811 106.144 1.00 22.55 490 OD1 ASP A 284 58.431 9.194 107.093 1.00 42.17 491 OD2 ASP A 284 59.783 9.607 105.443 1.00 36.89 492 C ASP A 284 56.623 7.306 105.955 1.00 23.76 493 O ASP A 284 56.040 8.009 106.788 1.00 27.90 494 N PHE A 285 56.123 7.086 104.744 1.00 17.48 495 CA PHE A 285 54.850 7.673 104.367 1.00 19.07 496 CB PHE A 285 54.732 7.647 102.853 1.00 16.30 497 CG PHE A 285 53.383 8.069 102.346 1.00 14.98 498 CD1 PHE A 285 52.991 9.398 102.422 1.00 13.11 499 CD2 PHE A 285 52.499 7.135 101.819 1.00 14.66 500 CE1 PHE A 285 51.711 9.815 101.980 1.00 14.89 501 CE2 PHE A 285 51.214 7.526 101.367 1.00 23.01 502 CZ PHE A 285 50.814 8.886 101.448 1.00 5.25 503 C PHE A 285 53.574 6.996 104.984 1.00 23.61 504 O PHE A 285 52.560 7.681 105.230 1.00 22.21 505 N ALA A 286 53.596 5.665 105.162 1.00 23.51 506 CA ALA A 286 52.444 4.964 105.757 1.00 27.50 507 CB ALA A 286 52.641 3.449 105.744 1.00 25.14 508 C ALA A 286 52.272 5.429 107.205 1.00 26.35 509 O ALA A 286 51.171 5.387 107.743 1.00 24.23 510 N LYS A 287 53.376 5.856 107.812 1.00 21.64 511 CA LYS A 287 53.385 6.337 109.173 1.00 20.78 512 CB LYS A 287 54.829 6.569 109.627 1.00 32.68 513 CG LYS A 287 55.557 5.394 110.287 1.00 16.23 514 CD LYS A 287 56.916 5.890 110.820 1.00 6.38 515 CE LYS A 287 57.643 4.797 111.544 1.00 20.16 516 NZ LYS A 287 58.945 5.307 112.046 1.00 34.26 517 C LYS A 287 52.650 7.648 109.252 1.00 18.44 518 O LYS A 287 52.266 8.100 110.313 1.00 11.43 519 N GLN A 288 52.481 8.263 108.100 1.00 21.42 520 CA GLN A 288 51.810 9.553 108.006 1.00 22.66 521 CB GLN A 288 52.539 10.411 106.980 1.00 29.15 522 CG GLN A 288 54.018 10.573 107.234 1.00 42.69 523 CD GLN A 288 54.304 11.694 108.176 1.00 49.48 524 OE1 GLN A 288 55.423 12.173 108.258 1.00 74.17 525 NE2 GLN A 288 53.292 12.138 108.883 1.00 51.28 526 C GLN A 288 50.350 9.409 107.581 1.00 21.76 527 O GLN A 288 49.603 10.383 107.656 1.00 27.23 528 N VAL A 289 49.953 8.211 107.129 1.00 19.79 529 CA VAL A 289 48.580 7.973 106.681 1.00 15.70 530 CB VAL A 289 48.488 6.742 105.759 1.00 13.08 531 CG1 VAL A 289 47.074 6.556 105.298 1.00 6.01 532 CG2 VAL A 289 49.404 6.935 104.572 1.00 15.89 533 C VAL A 289 47.722 7.798 107.921 1.00 14.36 534 O VAL A 289 47.875 6.848 108.678 1.00 10.54 535 N PRO A 290 46.835 8.766 108.171 1.00 14.08 536 CD PRO A 290 46.585 9.963 107.354 1.00 17.19 537 CA PRO A 290 45.948 8.749 109.327 1.00 15.24 538 CB PRO A 290 44.921 9.810 108.977 1.00 5.72 539 CG PRO A 290 45.719 10.783 108.275 1.00 16.05 540 C PRO A 290 45.321 7.387 109.524 1.00 21.69 541 O PRO A 290 44.658 6.880 108.633 1.00 27.78 542 N GLY A 291 45.508 6.827 110.715 1.00 21.98 543 CA GLY A 291 44.942 5.550 111.030 1.00 16.77 544 C GLY A 291 45.968 4.456 111.051 1.00 23.95 545 O GLY A 291 45.844 3.533 111.864 1.00 27.61 546 N PHE A 292 46.986 4.554 110.191 1.00 23.02 547 CA PHE A 292 47.999 3.503 110.135 1.00 23.53 548 CB PHE A 292 49.080 3.824 109.096 1.00 9.73 549 CG PHE A 292 49.971 2.675 108.803 1.00 5.25 550 CD1 PHE A 292 49.524 1.613 108.044 1.00 5.25 551 CD2 PHE A 292 51.234 2.610 109.359 1.00 9.44 552 CE1 PHE A 292 50.337 0.490 107.860 1.00 8.02 553 CE2 PHE A 292 52.089 1.473 109.177 1.00 5.29 554 CZ PHE A 292 51.647 0.429 108.441 1.00 6.77 555 C PHE A 292 48.654 3.216 111.486 1.00 25.20 556 O PHE A 292 48.712 2.072 111.939 1.00 28.15 557 N LEU A 293 49.125 4.250 112.163 1.00 26.45 558 CA LEU A 293 49.793 4.021 113.451 1.00 25.06 559 CB LEU A 293 50.565 5.278 113.875 1.00 12.77 560 CG LEU A 293 51.911 5.434 113.153 1.00 13.71 561 CD1 LEU A 293 52.619 6.647 113.686 1.00 20.57 562 CD2 LEU A 293 52.784 4.213 113.389 1.00 17.42 563 C LEU A 293 48.902 3.552 114.590 1.00 26.84 564 O LEU A 293 49.380 3.227 115.662 1.00 27.75 565 N GLN A 294 47.603 3.526 114.366 1.00 28.94 566 CA GLN A 294 46.703 3.072 115.406 1.00 29.14 567 CB GLN A 294 45.335 3.721 115.199 1.00 32.40 568 CG GLN A 294 45.373 5.200 115.308 1.00 34.00 569 CD GLN A 294 44.058 5.848 114.902 1.00 47.60 570 OE1 GLN A 294 43.968 7.088 114.834 1.00 47.41 571 NE2 GLN A 294 43.028 5.020 114.620 1.00 31.54 572 C GLN A 294 46.585 1.514 115.429 1.00 29.82 573 O GLN A 294 46.088 0.931 116.413 1.00 27.35 574 N LEU A 295 47.031 0.852 114.350 1.00 24.78 575 CA LEU A 295 46.983 −0.605 114.275 1.00 22.06 576 CB LEU A 295 47.075 −1.093 112.820 1.00 15.09 577 CG LEU A 295 45.917 −0.816 111.856 1.00 8.95 578 CD1 LEU A 295 46.207 −1.416 110.509 1.00 5.25 579 CD2 LEU A 295 44.645 −1.407 112.431 1.00 7.77 580 C LEU A 295 48.151 −1.169 115.083 1.00 24.15 581 O LEU A 295 48.938 −0.432 115.679 1.00 25.53 582 N GLY A 296 48.250 −2.484 115.123 1.00 25.20 583 CA GLY A 296 49.330 −3.105 115.860 1.00 25.00 584 C GLY A 296 50.530 −3.319 114.947 1.00 28.85 585 O GLY A 296 50.389 −3.560 113.738 1.00 30.52 586 N ARG A 297 51.723 −3.235 115.527 1.00 27.91 587 CA ARG A 297 52.934 −3.416 114.771 1.00 26.54 588 CB ARG A 297 54.135 −3.450 115.724 1.00 26.53 589 CG ARG A 297 54.646 −2.058 116.142 1.00 34.70 590 CD ARG A 297 55.192 −1.263 114.973 1.00 43.40 591 NE ARG A 297 55.933 −0.085 115.407 1.00 49.04 592 CZ ARG A 297 55.375 1.010 115.898 1.00 44.17 593 NH1 ARG A 297 54.064 1.073 116.017 1.00 58.77 594 NH2 ARG A 297 56.132 2.042 116.257 1.00 42.14 595 C ARG A 297 52.874 −4.661 113.882 1.00 25.01 596 O ARG A 297 53.394 −4.663 112.766 1.00 26.94 597 N GLU A 298 52.218 −5.708 114.355 1.00 22.09 598 CA GLU A 298 52.115 −6.923 113.556 1.00 24.63 599 CB GLU A 298 51.327 −8.010 114.290 1.00 28.37 600 CG GLU A 298 51.848 −8.340 115.658 1.00 37.88 601 CD GLU A 298 51.292 −7.409 116.740 1.00 55.37 602 OE1 GLU A 298 50.070 −7.452 117.028 1.00 59.05 603 OE2 GLU A 298 52.076 −6.614 117.307 1.00 70.02 604 C GLU A 298 51.389 −6.558 112.273 1.00 23.66 605 O GLU A 298 51.927 −6.676 111.158 1.00 20.63 606 N ASP A 299 50.155 −6.101 112.429 1.00 19.84 607 CA ASP A 299 49.390 −5.712 111.253 1.00 21.20 608 CB ASP A 299 47.983 −5.270 111.667 1.00 16.47 609 CG ASP A 299 47.028 −6.459 111.883 1.00 22.01 610 OD1 ASP A 299 47.464 −7.631 111.711 1.00 20.27 611 OD2 ASP A 299 45.834 −6.227 112.223 1.00 17.13 612 C ASP A 299 50.088 −4.619 110.406 1.00 18.39 613 O ASP A 299 49.886 −4.542 109.198 1.00 18.30 614 N GLN A 300 50.916 −3.784 111.024 1.00 17.35 615 CA GLN A 300 51.595 −2.747 110.259 1.00 15.73 616 CB GLN A 300 52.376 −1.789 111.169 1.00 9.88 617 CG GLN A 300 51.477 −0.866 111.981 1.00 27.45 618 CD GLN A 300 52.229 0.097 112.877 1.00 13.50 619 OE1 GLN A 300 51.702 0.566 113.878 1.00 23.51 620 NE2 GLN A 300 53.458 0.379 112.530 1.00 24.69 621 C GLN A 300 52.565 −3.470 109.338 1.00 17.34 622 O GLN A 300 52.778 −3.092 108.182 1.00 18.14 623 N ILE A 301 53.162 −4.533 109.843 1.00 12.85 624 CA ILE A 301 54.101 −5.236 109.016 1.00 14.59 625 CB ILE A 301 54.976 −6.165 109.893 1.00 15.16 626 CG2 ILE A 301 55.820 −7.091 109.001 1.00 5.25 627 CG1 ILE A 301 55.793 −5.274 110.855 1.00 8.71 628 CD1 ILE A 301 56.769 −5.993 111.737 1.00 10.92 629 C ILE A 301 53.384 −5.993 107.909 1.00 15.65 630 O ILE A 301 53.741 −5.875 106.766 1.00 12.48 631 N ALA A 302 52.353 −6.747 108.274 1.00 20.32 632 CA ALA A 302 51.576 −7.519 107.322 1.00 19.51 633 CB ALA A 302 50.314 −8.081 107.978 1.00 20.40 634 C ALA A 302 51.188 −6.645 106.161 1.00 19.30 635 O ALA A 302 51.409 −7.008 104.998 1.00 21.12 636 N LEU A 303 50.603 −5.497 106.477 1.00 16.93 637 CA LEU A 303 50.151 −4.565 105.447 1.00 21.31 638 CB LEU A 303 49.373 −3.409 106.101 1.00 13.13 639 CG LEU A 303 48.157 −3.919 106.854 1.00 12.92 640 CD1 LEU A 303 47.499 −2.757 107.493 1.00 18.24 641 CD2 LEU A 303 47.195 −4.658 105.930 1.00 5.25 642 C LEU A 303 51.288 −3.996 104.578 1.00 21.60 643 O LEU A 303 51.241 −4.018 103.347 1.00 23.50 644 N LEU A 304 52.313 −3.496 105.240 1.00 20.10 645 CA LEU A 304 53.445 −2.897 104.567 1.00 17.11 646 CB LEU A 304 54.343 −2.249 105.620 1.00 11.01 647 CG LEU A 304 54.510 −0.741 105.558 1.00 18.49 648 CD1 LEU A 304 55.287 −0.461 104.307 1.00 44.23 649 CD2 LEU A 304 53.181 −0.015 105.462 1.00 20.96 650 C LEU A 304 54.208 −3.921 103.748 1.00 16.89 651 O LEU A 304 54.649 −3.658 102.635 1.00 20.67 652 N LYS A 305 54.360 −5.109 104.288 1.00 13.73 653 CA LYS A 305 55.091 −6.157 103.578 1.00 19.77 654 CB LYS A 305 55.291 −7.356 104.527 1.00 20.81 655 CG LYS A 305 55.946 −8.565 103.905 1.00 13.19 656 CD LYS A 305 55.916 −9.726 104.870 1.00 20.63 657 CE LYS A 305 56.306 −11.057 104.228 1.00 12.06 658 NZ LYS A 305 57.703 −11.055 103.799 1.00 19.00 659 C LYS A 305 54.438 −6.634 102.250 1.00 21.51 660 O LYS A 305 55.068 −7.200 101.387 1.00 18.05 661 N ALA A 306 53.155 −6.410 102.087 1.00 25.21 662 CA ALA A 306 52.491 −6.827 100.864 1.00 23.27 663 CB ALA A 306 51.124 −7.438 101.174 1.00 17.32 664 C ALA A 306 52.298 −5.650 99.914 1.00 23.06 665 O ALA A 306 52.172 −5.875 98.710 1.00 24.75 666 N SER A 307 52.287 −4.405 100.412 1.00 16.72 667 CA SER A 307 52.036 −3.328 99.481 1.00 18.89 668 CB SER A 307 51.075 −2.280 100.087 1.00 18.39 669 OG SER A 307 51.577 −1.640 101.231 1.00 27.27 670 C SER A 307 53.252 −2.673 98.893 1.00 18.47 671 O SER A 307 53.137 −1.896 97.952 1.00 17.24 672 N THR A 308 54.418 −3.007 99.431 1.00 20.42 673 CA THR A 308 55.652 −2.412 98.961 1.00 20.33 674 CB THR A 308 56.857 −2.970 99.677 1.00 26.07 675 OG1 THR A 308 56.723 −2.675 101.072 1.00 15.84 676 CG2 THR A 308 58.165 −2.380 99.109 1.00 11.95 677 C THR A 308 55.806 −2.623 97.491 1.00 24.21 678 O THR A 308 55.949 −1.639 96.768 1.00 31.09 679 N ILE A 309 55.736 −3.865 97.008 1.00 22.05 680 CA ILE A 309 55.885 −4.058 95.541 1.00 21.97 681 CB ILE A 309 55.970 −5.540 95.155 1.00 10.57 682 CG2 ILE A 309 54.599 −6.187 95.213 1.00 10.35 683 CG1 ILE A 309 56.457 −5.655 93.746 1.00 11.00 684 CD1 ILE A 309 57.624 −4.806 93.430 1.00 15.31 685 C ILE A 309 54.741 −3.384 94.723 1.00 24.31 686 O ILE A 309 54.955 −2.796 93.647 1.00 26.07 687 N GLU A 310 53.531 −3.417 95.257 1.00 24.15 688 CA GLU A 310 52.445 −2.787 94.548 1.00 25.27 689 CB GLU A 310 51.100 −3.217 95.156 1.00 20.97 690 CG GLU A 310 50.768 −4.656 94.840 1.00 23.89 691 CD GLU A 310 49.495 −5.121 95.467 1.00 28.73 692 OE1 GLU A 310 48.483 −4.411 95.287 1.00 30.31 693 OE2 GLU A 310 49.510 −6.199 96.125 1.00 29.66 694 C GLU A 310 52.610 −1.262 94.528 1.00 23.80 695 O GLU A 310 52.459 −0.630 93.456 1.00 22.71 696 N ILE A 311 52.925 −0.688 95.698 1.00 21.18 697 CA ILE A 311 53.100 0.754 95.834 1.00 17.78 698 CB ILE A 311 53.420 1.153 97.270 1.00 22.01 699 CG2 ILE A 311 53.731 2.670 97.360 1.00 14.47 700 CG1 ILE A 311 52.256 0.772 98.180 1.00 20.79 701 CD1 ILE A 311 52.456 1.225 99.620 1.00 5.25 702 C ILE A 311 54.264 1.183 94.951 1.00 17.83 703 O ILE A 311 54.210 2.226 94.286 1.00 17.78 704 N MET A 312 55.310 0.367 94.914 1.00 12.27 705 CA MET A 312 56.447 0.689 94.053 1.00 11.78 706 CB MET A 312 57.513 −0.410 94.128 1.00 8.84 707 CG MET A 312 58.406 −0.330 95.372 1.00 8.36 708 SD MET A 312 59.459 −1.748 95.526 1.00 13.68 709 CE MET A 312 60.895 −1.101 96.293 1.00 30.13 710 C MET A 312 55.954 0.817 92.605 1.00 15.28 711 O MET A 312 56.238 1.815 91.939 1.00 14.23 712 N LEU A 313 55.214 −0.196 92.126 1.00 17.47 713 CA LEU A 313 54.678 −0.171 90.750 1.00 12.93 714 CB LEU A 313 53.984 −1.497 90.424 1.00 6.84 715 CG LEU A 313 54.946 −2.670 90.488 1.00 12.50 716 CD1 LEU A 313 54.187 −3.949 90.340 1.00 16.17 717 CD2 LEU A 313 55.954 −2.535 89.413 1.00 8.29 718 C LEU A 313 53.699 1.012 90.568 1.00 14.27 719 O LEU A 313 53.483 1.516 89.448 1.00 9.22 720 N LEU A 314 53.078 1.461 91.656 1.00 11.10 721 CA LEU A 314 52.211 2.593 91.465 1.00 12.84 722 CB LEU A 314 51.379 2.877 92.725 1.00 6.93 723 CG LEU A 314 50.068 2.130 92.863 1.00 6.99 724 CD1 LEU A 314 49.457 2.319 94.173 1.00 5.25 725 CD2 LEU A 314 49.126 2.632 91.850 1.00 7.30 726 C LEU A 314 53.155 3.777 91.119 1.00 12.77 727 O LEU A 314 52.982 4.460 90.105 1.00 11.50 728 N GLU A 315 54.177 3.961 91.950 1.00 11.87 729 CA GLU A 315 55.124 5.042 91.770 1.00 16.53 730 CB GLU A 315 56.120 5.039 92.932 1.00 11.89 731 CG GLU A 315 55.605 5.607 94.194 1.00 5.25 732 CD GLU A 315 55.595 7.090 94.201 1.00 10.85 733 OE1 GLU A 315 55.182 7.702 93.176 1.00 8.77 734 OE2 GLU A 315 55.999 7.645 95.248 1.00 17.41 735 C GLU A 315 55.865 4.976 90.426 1.00 16.97 736 O GLU A 315 56.052 6.002 89.730 1.00 17.98 737 N THR A 316 56.293 3.768 90.083 1.00 17.59 738 CA THR A 316 56.990 3.522 88.833 1.00 17.43 739 CB THR A 316 57.280 2.030 88.672 1.00 17.51 740 OG1 THR A 316 57.863 1.527 89.884 1.00 30.83 741 CG2 THR A 316 58.265 1.826 87.594 1.00 18.88 742 C THR A 316 56.081 4.003 87.710 1.00 11.80 743 O THR A 316 56.517 4.648 86.758 1.00 9.81 744 N ALA A 317 54.793 3.735 87.862 1.00 10.77 745 CA ALA A 317 53.840 4.147 86.849 1.00 16.37 746 CB ALA A 317 52.475 3.546 87.136 1.00 5.38 747 C ALA A 317 53.744 5.667 86.802 1.00 18.32 748 O ALA A 317 53.894 6.257 85.754 1.00 19.63 749 N ARG A 318 53.471 6.288 87.944 1.00 19.01 750 CA ARG A 318 53.340 7.728 88.018 1.00 20.43 751 CB ARG A 318 53.127 8.163 89.480 1.00 17.68 752 CG ARG A 318 53.723 9.553 89.752 1.00 26.39 753 CD ARG A 318 53.215 10.206 91.009 1.00 28.62 754 NE ARG A 318 53.609 9.530 92.240 1.00 10.50 755 CZ ARG A 318 53.102 9.861 93.417 1.00 16.96 756 NH1 ARG A 318 52.228 10.843 93.456 1.00 13.30 757 NH2 ARG A 318 53.424 9.199 94.539 1.00 11.73 758 C ARG A 318 54.565 8.450 87.438 1.00 22.34 759 O ARG A 318 54.467 9.564 86.933 1.00 21.25 760 N ARG A 319 55.713 7.793 87.488 1.00 21.35 761 CA ARG A 319 56.956 8.375 87.032 1.00 17.87 762 CB ARG A 319 58.045 7.931 88.022 1.00 20.75 763 CG ARG A 319 58.387 8.951 89.050 1.00 24.12 764 CD ARG A 319 58.545 8.402 90.431 1.00 17.36 765 NE ARG A 319 58.607 9.508 91.410 1.00 32.94 766 CZ ARG A 319 57.991 9.447 92.577 1.00 33.79 767 NH1 ARG A 319 57.317 8.346 92.849 1.00 43.26 768 NH2 ARG A 319 58.024 10.456 93.438 1.00 52.22 769 C ARG A 319 57.323 7.982 85.620 1.00 18.49 770 O ARG A 319 58.478 8.158 85.184 1.00 20.42 771 N TYR A 320 56.350 7.422 84.906 1.00 18.20 772 CA TYR A 320 56.550 6.958 83.520 1.00 14.45 773 CB TYR A 320 55.609 5.815 83.236 1.00 13.95 774 CG TYR A 320 55.706 5.312 81.847 1.00 8.19 775 CD1 TYR A 320 54.719 5.611 80.913 1.00 8.08 776 CE1 TYR A 320 54.753 5.056 79.620 1.00 17.06 777 CD2 TYR A 320 56.756 4.459 81.475 1.00 19.62 778 CE2 TYR A 320 56.819 3.888 80.178 1.00 18.44 779 CZ TYR A 320 55.803 4.187 79.265 1.00 17.55 780 OH TYR A 320 55.806 3.578 78.037 1.00 21.89 781 C TYR A 320 56.333 8.003 82.467 1.00 13.03 782 O TYR A 320 55.356 8.730 82.499 1.00 9.85 783 N ASN A 321 57.247 8.044 81.518 1.00 17.48 784 CA ASN A 321 57.208 9.010 80.425 1.00 24.17 785 CB ASN A 321 58.621 9.556 80.231 1.00 22.33 786 CG ASN A 321 58.745 10.434 79.018 1.00 35.24 787 OD1 ASN A 321 58.104 10.210 77.977 1.00 42.91 788 ND2 ASN A 321 59.602 11.432 79.126 1.00 40.28 789 C ASN A 321 56.732 8.291 79.149 1.00 30.47 790 O ASN A 321 57.365 7.343 78.722 1.00 30.73 791 N HIS A 322 55.657 8.755 78.514 1.00 34.71 792 CA HIS A 322 55.162 8.076 77.324 1.00 41.59 793 CB HIS A 322 53.701 8.431 77.059 1.00 54.29 794 CG HIS A 322 53.408 9.909 76.990 1.00 76.97 795 CD2 HIS A 322 53.251 10.730 75.920 1.00 80.64 796 ND1 HIS A 322 53.153 10.696 78.102 1.00 85.25 797 CE1 HIS A 322 52.850 11.927 77.721 1.00 83.58 798 NE2 HIS A 322 52.904 11.973 76.400 1.00 84.03 799 C HIS A 322 55.967 8.288 76.065 1.00 43.58 800 O HIS A 322 56.226 7.349 75.317 1.00 44.52 801 N GLU A 323 56.400 9.512 75.840 1.00 44.35 802 CA GLU A 323 57.174 9.799 74.656 1.00 46.93 803 CB GLU A 323 57.410 11.297 74.538 1.00 56.88 804 CG GLU A 323 57.359 12.013 75.886 1.00 75.19 805 CD GLU A 323 57.518 13.517 75.759 1.00 83.55 806 OE1 GLU A 323 58.552 13.965 75.194 1.00 84.32 807 OE2 GLU A 323 56.604 14.250 76.212 1.00 85.25 808 C GLU A 323 58.494 9.064 74.667 1.00 44.24 809 O GLU A 323 58.897 8.550 73.625 1.00 46.47 810 N THR A 324 59.148 8.979 75.833 1.00 36.96 811 CA THR A 324 60.461 8.325 75.921 1.00 31.82 812 CB THR A 324 61.419 9.124 76.811 1.00 28.94 813 OG1 THR A 324 61.147 8.850 78.192 1.00 43.62 814 CG2 THR A 324 61.247 10.617 76.565 1.00 42.78 815 C THR A 324 60.450 6.876 76.410 1.00 32.14 816 O THR A 324 61.486 6.156 76.345 1.00 19.90 817 N GLU A 325 59.260 6.449 76.848 1.00 33.70 818 CA GLU A 325 59.017 5.099 77.386 1.00 33.30 819 CB GLU A 325 59.101 4.047 76.270 1.00 39.05 820 CG GLU A 325 57.997 4.113 75.234 1.00 41.63 821 CD GLU A 325 57.894 2.822 74.473 1.00 48.98 822 OE1 GLU A 325 57.333 1.843 75.016 1.00 67.31 823 OE2 GLU A 325 58.402 2.755 73.344 1.00 53.65 824 C GLU A 325 59.966 4.711 78.541 1.00 29.19 825 O GLU A 325 60.150 3.541 78.819 1.00 29.37 826 N CYS A 326 60.543 5.708 79.210 1.00 24.41 827 CA CYS A 326 61.463 5.464 80.303 1.00 19.33 828 CB CYS A 326 62.771 6.209 80.096 1.00 19.88 829 SG CYS A 326 63.687 5.503 78.803 1.00 24.37 830 C CYS A 326 60.903 5.860 81.623 1.00 15.95 831 O CYS A 326 60.151 6.805 81.730 1.00 14.68 832 N ILE A 327 61.278 5.114 82.647 1.00 16.97 833 CA ILE A 327 60.772 5.412 83.970 1.00 20.52 834 CB ILE A 327 60.439 4.135 84.761 1.00 22.42 835 CG2 ILE A 327 60.222 4.478 86.226 1.00 8.74 836 CG1 ILE A 327 59.173 3.497 84.183 1.00 16.37 837 CD1 ILE A 327 58.975 2.088 84.631 1.00 22.14 838 C ILE A 327 61.875 6.156 84.655 1.00 22.73 839 O ILE A 327 62.994 5.654 84.796 1.00 26.08 840 N THR A 328 61.584 7.373 85.062 1.00 19.96 841 CA THR A 328 62.618 8.139 85.713 1.00 19.11 842 CB THR A 328 62.740 9.541 85.056 1.00 11.47 843 OG1 THR A 328 63.358 10.424 85.985 1.00 12.92 844 CG2 THR A 328 61.417 10.084 84.701 1.00 12.27 845 C THR A 328 62.366 8.236 87.245 1.00 18.38 846 O THR A 328 61.446 8.922 87.717 1.00 14.72 847 N PHE A 329 63.183 7.517 88.006 1.00 16.51 848 CA PHE A 329 63.082 7.513 89.443 1.00 18.38 849 CB PHE A 329 64.105 6.547 90.027 1.00 18.29 850 CG PHE A 329 64.090 5.188 89.405 1.00 19.31 851 CD1 PHE A 329 63.067 4.818 88.522 1.00 13.87 852 CD2 PHE A 329 65.075 4.242 89.743 1.00 16.73 853 CE1 PHE A 329 63.000 3.509 87.971 1.00 7.96 854 CE2 PHE A 329 65.027 2.934 89.207 1.00 9.29 855 CZ PHE A 329 63.975 2.572 88.314 1.00 7.44 856 C PHE A 329 63.339 8.870 90.069 1.00 22.72 857 O PHE A 329 62.549 9.343 90.833 1.00 18.85 858 N LEU A 330 64.460 9.486 89.721 1.00 27.93 859 CA LEU A 330 64.873 10.747 90.316 1.00 30.76 860 CB LEU A 330 66.148 10.534 91.130 1.00 34.14 861 CG LEU A 330 66.044 10.077 92.550 1.00 29.90 862 CD1 LEU A 330 67.392 10.061 93.207 1.00 44.27 863 CD2 LEU A 330 65.150 11.082 93.251 1.00 53.47 864 C LEU A 330 65.242 11.663 89.216 1.00 35.80 865 O LEU A 330 64.976 11.335 88.068 1.00 34.20 866 N LYS A 331 65.830 12.821 89.555 1.00 39.21 867 CA LYS A 331 66.315 13.677 88.481 1.00 40.72 868 CB LYS A 331 66.344 15.172 88.848 1.00 42.67 869 CG LYS A 331 67.703 15.843 88.676 1.00 51.34 870 CD LYS A 331 67.770 16.800 87.501 1.00 53.38 871 CE LYS A 331 69.185 17.325 87.365 1.00 50.95 872 NZ LYS A 331 69.369 18.028 86.053 1.00 59.13 873 C LYS A 331 67.706 13.039 88.232 1.00 38.02 874 O LYS A 331 68.390 12.532 89.142 1.00 38.56 875 N ASP A 332 68.088 13.082 86.972 1.00 36.23 876 CA ASP A 332 69.246 12.404 86.422 1.00 35.75 877 CB ASP A 332 70.597 13.264 86.339 1.00 36.31 878 CG ASP A 332 71.188 13.706 87.656 1.00 43.37 879 OD1 ASP A 332 72.125 13.010 88.122 1.00 55.31 880 OD2 ASP A 332 70.770 14.763 88.198 1.00 45.32 881 C ASP A 332 69.377 10.932 86.923 1.00 32.13 882 O ASP A 332 70.442 10.431 87.220 1.00 33.64 883 N PHE A 333 68.241 10.219 86.921 1.00 30.11 884 CA PHE A 333 68.083 8.766 87.334 1.00 30.48 885 CB PHE A 333 67.696 8.577 88.831 1.00 19.29 886 CG PHE A 333 68.863 8.544 89.783 1.00 21.29 887 CD1 PHE A 333 69.532 7.343 90.010 1.00 16.07 888 CD2 PHE A 333 69.302 9.722 90.446 1.00 12.63 889 CE1 PHE A 333 70.632 7.289 90.878 1.00 16.55 890 CE2 PHE A 333 70.384 9.699 91.310 1.00 16.16 891 CZ PHE A 333 71.064 8.476 91.536 1.00 16.98 892 C PHE A 333 66.920 8.119 86.552 1.00 28.27 893 O PHE A 333 65.862 7.807 87.135 1.00 33.02 894 N THR A 334 67.139 7.860 85.270 1.00 23.48 895 CA THR A 334 66.115 7.295 84.392 1.00 24.00 896 CB THR A 334 65.828 8.337 83.276 1.00 20.94 897 OG1 THR A 334 65.314 9.524 83.895 1.00 18.52 898 CG2 THR A 334 64.816 7.839 82.271 1.00 17.24 899 C THR A 334 66.448 5.906 83.803 1.00 21.68 900 O THR A 334 67.595 5.599 83.563 1.00 20.97 901 N TYR A 335 65.442 5.071 83.581 1.00 18.64 902 CA TYR A 335 65.697 3.741 83.045 1.00 19.91 903 CB TYR A 335 65.763 2.728 84.203 1.00 18.15 904 CG TYR A 335 66.664 3.239 85.335 1.00 19.69 905 CD1 TYR A 335 68.052 3.132 85.244 1.00 9.91 906 CE1 TYR A 335 68.888 3.773 86.128 1.00 16.03 907 CD2 TYR A 335 66.134 3.993 86.382 1.00 12.55 908 CE2 TYR A 335 66.948 4.638 87.264 1.00 21.32 909 CZ TYR A 335 68.331 4.543 87.130 1.00 22.31 910 OH TYR A 335 69.130 5.334 87.921 1.00 14.35 911 C TYR A 335 64.668 3.320 81.995 1.00 21.65 912 O TYR A 335 63.458 3.601 82.094 1.00 25.19 913 N SER A 336 65.188 2.659 80.972 1.00 21.19 914 CA SER A 336 64.408 2.168 79.852 1.00 19.61 915 CB SER A 336 65.292 2.113 78.639 1.00 15.94 916 OG SER A 336 66.198 1.026 78.795 1.00 17.24 917 C SER A 336 63.993 0.751 80.156 1.00 22.31 918 O SER A 336 64.309 0.216 81.203 1.00 22.32 919 N LYS A 337 63.308 0.114 79.224 1.00 27.92 920 CA LYS A 337 62.927 −1.267 79.471 1.00 32.61 921 CB LYS A 337 61.992 −1.794 78.378 1.00 38.84 922 CG LYS A 337 60.512 −1.671 78.689 1.00 45.22 923 CD LYS A 337 59.685 −2.866 78.099 1.00 37.58 924 CE LYS A 337 58.528 −2.372 77.209 1.00 33.90 925 NZ LYS A 337 57.646 −3.499 76.797 1.00 26.57 926 C LYS A 337 64.220 −2.089 79.447 1.00 32.43 927 O LYS A 337 64.463 −2.938 80.297 1.00 31.18 928 N ASP A 338 65.062 −1.826 78.459 1.00 34.81 929 CA ASP A 338 66.281 −2.587 78.357 1.00 33.25 930 CB ASP A 338 67.003 −2.294 77.048 1.00 31.70 931 CG ASP A 338 68.258 −3.122 76.918 1.00 46.29 932 OD1 ASP A 338 68.187 −4.373 77.017 1.00 52.08 933 OD2 ASP A 338 69.338 −2.540 76.732 1.00 52.04 934 C ASP A 338 67.200 −2.355 79.561 1.00 31.99 935 O ASP A 338 68.063 −3.187 79.872 1.00 32.73 936 N ASP A 339 67.027 −1.240 80.260 1.00 29.20 937 CA ASP A 339 67.854 −1.030 81.439 1.00 26.90 938 CB ASP A 339 67.660 0.380 81.977 1.00 28.69 939 CG ASP A 339 68.254 1.424 81.060 1.00 29.23 940 OD1 ASP A 339 69.450 1.260 80.684 1.00 24.71 941 OD2 ASP A 339 67.534 2.408 80.719 1.00 32.90 942 C ASP A 339 67.492 −2.070 82.498 1.00 26.21 943 O ASP A 339 68.363 −2.587 83.209 1.00 29.03 944 N PHE A 340 66.196 −2.374 82.568 1.00 27.72 945 CA PHE A 340 65.616 −3.365 83.475 1.00 26.22 946 CB PHE A 340 64.096 −3.345 83.346 1.00 28.71 947 CG PHE A 340 63.452 −2.309 84.162 1.00 26.69 948 CD1 PHE A 340 62.458 −2.656 85.044 1.00 24.75 949 CD2 PHE A 340 63.870 −0.989 84.092 1.00 29.16 950 CE1 PHE A 340 61.884 −1.703 85.865 1.00 16.74 951 CE2 PHE A 340 63.312 −0.041 84.896 1.00 22.67 952 CZ PHE A 340 62.315 −0.400 85.789 1.00 25.21 953 C PHE A 340 66.115 −4.746 83.098 1.00 30.07 954 O PHE A 340 66.430 −5.561 83.970 1.00 32.54 955 N HIS A 341 66.178 −5.020 81.794 1.00 29.06 956 CA HIS A 341 66.667 −6.307 81.388 1.00 33.09 957 CB HIS A 341 66.523 −6.501 79.894 1.00 41.29 958 CG HIS A 341 66.697 −7.923 79.493 1.00 51.69 959 CD2 HIS A 341 66.108 −9.044 79.972 1.00 62.95 960 ND1 HIS A 341 67.639 −8.343 78.579 1.00 60.58 961 CE1 HIS A 341 67.626 −9.664 78.516 1.00 67.99 962 NE2 HIS A 341 66.706 −10.113 79.355 1.00 74.79 963 C HIS A 341 68.131 −6.416 81.781 1.00 30.10 964 O HIS A 341 68.564 −7.399 82.397 1.00 33.29 965 N ARG A 342 68.885 −5.383 81.435 1.00 26.27 966 CA ARG A 342 70.297 −5.350 81.751 1.00 27.76 967 CB ARG A 342 70.910 −4.034 81.307 1.00 21.84 968 CG ARG A 342 71.231 −3.988 79.842 1.00 33.15 969 CD ARG A 342 72.195 −2.884 79.494 1.00 37.97 970 NE ARG A 342 71.933 −2.375 78.148 1.00 56.61 971 CZ ARG A 342 71.144 −1.332 77.893 1.00 57.88 972 NH1 ARG A 342 70.552 −0.694 78.890 1.00 63.90 973 NH2 ARG A 342 70.934 −0.931 76.643 1.00 54.40 974 C ARG A 342 70.472 −5.505 83.246 1.00 32.21 975 O ARG A 342 71.322 −6.289 83.719 1.00 37.76 976 N ALA A 343 69.652 −4.761 83.989 1.00 29.12 977 CA ALA A 343 69.688 −4.793 85.445 1.00 26.57 978 CB ALA A 343 68.664 −3.819 85.987 1.00 24.89 979 C ALA A 343 69.483 −6.202 86.064 1.00 26.96 980 O ALA A 343 69.650 −6.372 87.271 1.00 25.29 981 N GLY A 344 69.106 −7.188 85.246 1.00 24.87 982 CA GLY A 344 68.944 −8.544 85.743 1.00 23.67 983 C GLY A 344 67.535 −9.089 85.737 1.00 27.67 984 O GLY A 344 67.341 −10.318 85.803 1.00 25.72 985 N LEU A 345 66.551 −8.188 85.650 1.00 27.49 986 CA LEU A 345 65.135 −8.578 85.670 1.00 24.58 987 CB LEU A 345 64.258 −7.342 85.811 1.00 23.55 988 CG LEU A 345 64.619 −6.367 86.941 1.00 15.50 989 CD1 LEU A 345 63.839 −5.038 86.748 1.00 19.24 990 CD2 LEU A 345 64.305 −6.978 88.234 1.00 20.63 991 C LEU A 345 64.671 −9.347 84.453 1.00 23.25 992 O LEU A 345 65.177 −9.156 83.368 1.00 23.62 993 N GLN A 346 63.695 −10.218 84.663 1.00 23.03 994 CA GLN A 346 63.075 −11.031 83.605 1.00 23.05 995 CB GLN A 346 62.269 −12.178 84.208 1.00 21.66 996 CG GLN A 346 63.072 −13.195 84.943 1.00 40.94 997 CD GLN A 346 62.269 −14.431 85.340 1.00 38.02 998 OE1 GLN A 346 61.264 −14.330 86.050 1.00 26.11 999 NE2 GLN A 346 62.719 −15.605 84.883 1.00 38.61 1000 C GLN A 346 62.064 −10.237 82.740 1.00 24.22 1001 O GLN A 346 61.293 −9.377 83.240 1.00 13.82 1002 N VAL A 347 62.057 −10.566 81.447 1.00 25.45 1003 CA VAL A 347 61.136 −9.952 80.483 1.00 24.56 1004 CB VAL A 347 61.344 −10.578 79.024 1.00 23.19 1005 CG1 VAL A 347 60.788 −11.989 78.959 1.00 21.34 1006 CG2 VAL A 347 60.655 −9.760 77.970 1.00 10.36 1007 C VAL A 347 59.705 −10.260 80.989 1.00 26.68 1008 O VAL A 347 58.768 −9.520 80.752 1.00 28.59 1009 N GLU A 348 59.562 −11.370 81.700 1.00 28.04 1010 CA GLU A 348 58.280 −11.800 82.242 1.00 26.61 1011 CB GLU A 348 58.448 −13.098 83.028 1.00 31.77 1012 CG GLU A 348 59.539 −14.015 82.550 1.00 33.06 1013 CD GLU A 348 59.186 −14.628 81.283 1.00 37.73 1014 OE1 GLU A 348 58.072 −15.170 81.211 1.00 45.41 1015 OE2 GLU A 348 60.011 −14.568 80.354 1.00 60.92 1016 C GLU A 348 57.744 −10.761 83.200 1.00 23.96 1017 O GLU A 348 56.551 −10.584 83.297 1.00 24.06 1018 N PHE A 349 58.646 −10.119 83.932 1.00 22.08 1019 CA PHE A 349 58.295 −9.085 84.910 1.00 24.53 1020 CB PHE A 349 59.303 −9.138 86.082 1.00 14.36 1021 CG PHE A 349 58.951 −8.259 87.217 1.00 9.71 1022 CD1 PHE A 349 57.638 −8.190 87.673 1.00 16.13 1023 CD2 PHE A 349 59.932 −7.572 87.908 1.00 14.92 1024 CE1 PHE A 349 57.301 −7.453 88.820 1.00 5.25 1025 CE2 PHE A 349 59.609 −6.823 89.075 1.00 13.59 1026 CZ PHE A 349 58.284 −6.775 89.524 1.00 7.02 1027 C PHE A 349 58.256 −7.659 84.283 1.00 25.25 1028 O PHE A 349 57.298 −6.926 84.448 1.00 23.80 1029 N ILE A 350 59.313 −7.294 83.565 1.00 25.82 1030 CA ILE A 350 59.458 −6.005 82.885 1.00 22.66 1031 CB ILE A 350 60.763 −6.071 82.038 1.00 22.42 1032 CG2 ILE A 350 60.996 −4.796 81.233 1.00 14.30 1033 CG1 ILE A 350 61.922 −6.374 82.962 1.00 10.32 1034 CD1 ILE A 350 63.165 −6.731 82.164 1.00 13.28 1035 C ILE A 350 58.252 −5.582 81.982 1.00 26.39 1036 O ILE A 350 57.647 −4.504 82.146 1.00 19.95 1037 N ASN A 351 57.899 −6.418 81.012 1.00 27.99 1038 CA ASN A 351 56.769 −6.070 80.143 1.00 26.87 1039 CB ASN A 351 56.474 −7.190 79.134 1.00 20.91 1040 CG ASN A 351 57.688 −7.516 78.253 1.00 26.68 1041 OD1 ASN A 351 58.301 −6.645 77.665 1.00 21.67 1042 ND2 ASN A 351 58.030 −8.781 78.174 1.00 41.74 1043 C ASN A 351 55.499 −5.714 80.925 1.00 20.74 1044 O ASN A 351 54.935 −4.656 80.698 1.00 23.26 1045 N PRO A 352 55.043 −6.580 81.855 1.00 18.21 1046 CD PRO A 352 55.479 −7.970 82.083 1.00 12.88 1047 CA PRO A 352 53.830 −6.290 82.639 1.00 17.05 1048 CB PRO A 352 53.740 −7.479 83.592 1.00 13.45 1049 CG PRO A 352 54.232 −8.584 82.780 1.00 5.25 1050 C PRO A 352 53.872 −4.943 83.386 1.00 18.19 1051 O PRO A 352 52.828 −4.249 83.490 1.00 12.42 1052 N ILE A 353 55.059 −4.553 83.879 1.00 17.57 1053 CA ILE A 353 55.125 −3.280 84.574 1.00 17.31 1054 CB ILE A 353 56.360 −3.127 85.516 1.00 14.06 1055 CG2 ILE A 353 57.262 −4.287 85.470 1.00 20.72 1056 CG1 ILE A 353 57.037 −1.816 85.222 1.00 16.47 1057 CD1 ILE A 353 58.349 −1.669 85.959 1.00 30.09 1058 C ILE A 353 55.043 −2.100 83.608 1.00 16.16 1059 O ILE A 353 54.418 −1.061 83.893 1.00 19.52 1060 N PHE A 354 55.623 −2.260 82.437 1.00 17.20 1061 CA PHE A 354 55.541 −1.161 81.496 1.00 16.87 1062 CB PHE A 354 56.611 −1.296 80.428 1.00 15.75 1063 CG PHE A 354 57.961 −0.845 80.907 1.00 26.72 1064 CD1 PHE A 354 58.624 −1.554 81.933 1.00 26.43 1065 CD2 PHE A 354 58.542 0.320 80.404 1.00 14.53 1066 CE1 PHE A 354 59.839 −1.104 82.452 1.00 15.82 1067 CE2 PHE A 354 59.759 0.781 80.915 1.00 20.30 1068 CZ PHE A 354 60.410 0.081 81.934 1.00 23.97 1069 C PHE A 354 54.164 −1.113 80.892 1.00 16.64 1070 O PHE A 354 53.646 −0.048 80.543 1.00 15.01 1071 N GLU A 355 53.538 −2.275 80.819 1.00 17.82 1072 CA GLU A 355 52.205 −2.313 80.279 1.00 24.65 1073 CB GLU A 355 51.784 −3.751 79.975 1.00 27.67 1074 CG GLU A 355 51.021 −3.888 78.666 1.00 54.83 1075 CD GLU A 355 50.285 −2.598 78.291 1.00 73.11 1076 OE1 GLU A 355 50.069 −2.330 77.083 1.00 70.34 1077 OE2 GLU A 355 49.912 −1.833 79.206 1.00 84.30 1078 C GLU A 355 51.276 −1.684 81.325 1.00 25.67 1079 O GLU A 355 50.267 −1.008 81.025 1.00 25.52 1080 N PHE A 356 51.637 −1.878 82.580 1.00 24.31 1081 CA PHE A 356 50.807 −1.331 83.628 1.00 21.24 1082 CB PHE A 356 51.186 −1.932 84.954 1.00 16.93 1083 CG PHE A 356 50.490 −1.315 86.093 1.00 9.37 1084 CD1 PHE A 356 49.216 −1.697 86.425 1.00 11.26 1085 CD2 PHE A 356 51.113 −0.325 86.834 1.00 12.62 1086 CE1 PHE A 356 48.560 −1.097 87.490 1.00 5.27 1087 CE2 PHE A 356 50.459 0.285 87.901 1.00 6.44 1088 CZ PHE A 356 49.187 −0.104 88.225 1.00 6.39 1089 C PHE A 356 50.980 0.152 83.699 1.00 18.18 1090 O PHE A 356 50.013 0.863 84.023 1.00 12.84 1091 N SER A 357 52.210 0.606 83.419 1.00 18.00 1092 CA SER A 357 52.527 2.037 83.442 1.00 20.63 1093 CB SER A 357 54.005 2.263 83.194 1.00 24.68 1094 OG SER A 357 54.765 1.848 84.302 1.00 28.70 1095 C SER A 357 51.721 2.819 82.408 1.00 20.09 1096 O SER A 357 51.288 3.946 82.673 1.00 24.68 1097 N ARG A 358 51.493 2.208 81.242 1.00 21.71 1098 CA ARG A 358 50.709 2.849 80.169 1.00 20.24 1099 CB ARG A 358 50.932 2.135 78.816 1.00 21.60 1100 CG ARG A 358 52.392 2.178 78.364 1.00 24.91 1101 CD ARG A 358 52.695 1.483 77.018 1.00 22.98 1102 NE ARG A 358 53.676 0.374 77.211 1.00 49.01 1103 CZ ARG A 358 53.385 −0.942 77.152 1.00 46.01 1104 NH1 ARG A 358 52.145 −1.326 76.877 1.00 36.77 1105 NH2 ARG A 358 54.306 −1.879 77.438 1.00 30.95 1106 C ARG A 358 49.240 2.855 80.533 1.00 16.71 1107 O ARG A 358 48.528 3.825 80.293 1.00 16.15 1108 N ALA A 359 48.789 1.756 81.111 1.00 15.42 1109 CA ALA A 359 47.401 1.699 81.547 1.00 18.48 1110 CB ALA A 359 47.100 0.379 82.201 1.00 23.61 1111 C ALA A 359 47.197 2.844 82.535 1.00 17.14 1112 O ALA A 359 46.214 3.581 82.437 1.00 18.07 1113 N MET A 360 48.147 3.008 83.455 1.00 14.89 1114 CA MET A 360 48.054 4.064 84.433 1.00 17.42 1115 CB MET A 360 49.222 3.999 85.432 1.00 17.61 1116 CG MET A 360 49.061 2.921 86.502 1.00 7.42 1117 SD MET A 360 47.353 2.918 87.350 1.00 12.36 1118 CE MET A 360 47.562 3.990 88.630 1.00 10.71 1119 C MET A 360 47.964 5.455 83.824 1.00 18.28 1120 O MET A 360 47.105 6.239 84.223 1.00 20.28 1121 N ARG A 361 48.827 5.791 82.867 1.00 23.50 1122 CA ARG A 361 48.727 7.123 82.279 1.00 27.99 1123 CB ARG A 361 49.824 7.340 81.304 1.00 24.17 1124 CG ARG A 361 49.598 8.583 80.524 1.00 44.39 1125 CD ARG A 361 50.186 8.387 79.148 1.00 59.94 1126 NE ARG A 361 49.637 9.089 77.971 1.00 68.19 1127 CZ ARG A 361 48.781 8.514 77.124 1.00 77.06 1128 NH1 ARG A 361 48.328 7.287 77.353 1.00 83.36 1129 NH2 ARG A 361 48.565 9.036 75.926 1.00 80.65 1130 C ARG A 361 47.403 7.323 81.554 1.00 33.07 1131 O ARG A 361 46.895 8.439 81.468 1.00 35.79 1132 N ARG A 362 46.845 6.227 81.040 1.00 36.68 1133 CA ARG A 362 45.581 6.257 80.331 1.00 35.83 1134 CB ARG A 362 45.220 4.855 79.858 1.00 35.29 1135 CG ARG A 362 45.220 4.707 78.335 1.00 44.87 1136 CD ARG A 362 46.405 3.842 77.844 1.00 40.38 1137 NE ARG A 362 46.373 2.547 78.520 1.00 42.89 1138 CZ ARG A 362 45.455 1.598 78.326 1.00 26.47 1139 NH1 ARG A 362 44.502 1.775 77.469 1.00 39.65 1140 NH2 ARG A 362 45.461 0.473 79.017 1.00 26.69 1141 C ARG A 362 44.457 6.806 81.203 1.00 36.78 1142 O ARG A 362 43.420 7.264 80.692 1.00 44.96 1143 N LEU A 363 44.650 6.764 82.516 1.00 29.80 1144 CA LEU A 363 43.626 7.256 83.418 1.00 20.73 1145 CB LEU A 363 43.556 6.345 84.644 1.00 21.21 1146 CG LEU A 363 43.163 4.913 84.314 1.00 16.69 1147 CD1 LEU A 363 42.805 4.215 85.616 1.00 28.55 1148 CD2 LEU A 363 41.984 4.911 83.364 1.00 15.22 1149 C LEU A 363 43.849 8.721 83.831 1.00 15.12 1150 O LEU A 363 42.945 9.375 84.411 1.00 6.97 1151 N GLY A 364 45.051 9.218 83.534 1.00 12.82 1152 CA GLY A 364 45.398 10.597 83.845 1.00 16.60 1153 C GLY A 364 45.244 11.000 85.292 1.00 20.61 1154 O GLY A 364 44.613 12.037 85.593 1.00 17.13 1155 N LEU A 365 45.832 10.187 86.176 1.00 17.04 1156 CA LEU A 365 45.768 10.460 87.593 1.00 18.84 1157 CB LEU A 365 46.081 9.182 88.396 1.00 27.56 1158 CG LEU A 365 45.349 7.845 88.116 1.00 31.11 1159 CD1 LEU A 365 45.398 6.989 89.364 1.00 30.39 1160 CD2 LEU A 365 43.901 8.072 87.747 1.00 34.95 1161 C LEU A 365 46.730 11.560 88.023 1.00 18.09 1162 O LEU A 365 47.822 11.706 87.504 1.00 15.59 1163 N ASP A 366 46.331 12.335 89.017 1.00 20.32 1164 CA ASP A 366 47.214 13.390 89.529 1.00 20.40 1165 CB ASP A 366 46.470 14.701 89.665 1.00 16.78 1166 CG ASP A 366 45.278 14.567 90.521 1.00 23.28 1167 OD1 ASP A 366 45.399 13.745 91.473 1.00 15.63 1168 OD2 ASP A 366 44.258 15.279 90.245 1.00 18.63 1169 C ASP A 366 47.788 13.010 90.893 1.00 22.44 1170 O ASP A 366 47.699 11.858 91.347 1.00 22.65 1171 N ASP A 367 48.350 13.990 91.570 1.00 21.06 1172 CA ASP A 367 48.991 13.728 92.845 1.00 19.97 1173 CB ASP A 367 49.820 14.962 93.171 1.00 23.70 1174 CG ASP A 367 50.605 15.436 91.953 1.00 33.51 1175 OD1 ASP A 367 51.760 14.973 91.788 1.00 32.01 1176 OD2 ASP A 367 50.043 16.231 91.133 1.00 42.88 1177 C ASP A 367 48.033 13.316 93.991 1.00 18.37 1178 O ASP A 367 48.382 12.443 94.831 1.00 13.39 1179 N ALA A 368 46.812 13.870 93.969 1.00 14.31 1180 CA ALA A 368 45.829 13.569 95.010 1.00 10.24 1181 CB ALA A 368 44.677 14.566 94.991 1.00 5.25 1182 C ALA A 368 45.278 12.183 94.839 1.00 12.43 1183 O ALA A 368 45.058 11.445 95.798 1.00 12.82 1184 N GLU A 369 45.035 11.825 93.596 1.00 13.07 1185 CA GLU A 369 44.465 10.518 93.299 1.00 10.95 1186 CB GLU A 369 43.991 10.490 91.852 1.00 10.95 1187 CG GLU A 369 43.173 11.761 91.522 1.00 22.49 1188 CD GLU A 369 42.698 11.845 90.103 1.00 22.08 1189 OE1 GLU A 369 43.571 11.824 89.189 1.00 15.56 1190 OE2 GLU A 369 41.452 11.923 89.933 1.00 12.69 1191 C GLU A 369 45.492 9.450 93.577 1.00 11.12 1192 O GLU A 369 45.152 8.419 94.123 1.00 13.47 1193 N TYR A 370 46.760 9.692 93.255 1.00 8.69 1194 CA TYR A 370 47.778 8.683 93.538 1.00 9.43 1195 CB TYR A 370 49.137 9.069 92.949 1.00 13.30 1196 CG TYR A 370 49.432 8.500 91.586 1.00 16.34 1197 CD1 TYR A 370 49.209 9.234 90.429 1.00 13.30 1198 CE1 TYR A 370 49.548 8.742 89.210 1.00 6.00 1199 CD2 TYR A 370 49.985 7.247 91.463 1.00 21.23 1200 CE2 TYR A 370 50.313 6.725 90.234 1.00 18.57 1201 CZ TYR A 370 50.101 7.469 89.103 1.00 20.19 1202 OH TYR A 370 50.417 6.900 87.871 1.00 19.47 1203 C TYR A 370 47.926 8.547 95.038 1.00 11.30 1204 O TYR A 370 47.928 7.480 95.575 1.00 12.12 1205 N ALA A 371 48.027 9.658 95.734 1.00 16.86 1206 CA ALA A 371 48.202 9.549 97.163 1.00 18.13 1207 CB ALA A 371 48.167 10.925 97.793 1.00 16.28 1208 C ALA A 371 47.062 8.692 97.698 1.00 19.18 1209 O ALA A 371 47.258 7.734 98.469 1.00 17.78 1210 N LEU A 372 45.856 9.055 97.277 1.00 19.78 1211 CA LEU A 372 44.662 8.354 97.725 1.00 19.88 1212 CB LEU A 372 43.394 9.032 97.187 1.00 14.68 1213 CG LEU A 372 42.962 10.355 97.835 1.00 19.94 1214 CD1 LEU A 372 41.729 10.902 97.146 1.00 10.85 1215 CD2 LEU A 372 42.651 10.108 99.298 1.00 7.68 1216 C LEU A 372 44.656 6.868 97.332 1.00 22.11 1217 O LEU A 372 44.215 6.002 98.141 1.00 22.03 1218 N LEU A 373 45.175 6.552 96.133 1.00 15.88 1219 CA LEU A 373 45.137 5.166 95.695 1.00 10.66 1220 CB LEU A 373 45.372 5.030 94.196 1.00 8.65 1221 CG LEU A 373 44.655 3.840 93.598 1.00 6.32 1222 CD1 LEU A 373 43.285 4.260 93.208 1.00 5.25 1223 CD2 LEU A 373 45.422 3.376 92.400 1.00 20.15 1224 C LEU A 373 46.136 4.329 96.433 1.00 10.85 1225 O LEU A 373 45.889 3.129 96.632 1.00 14.08 1226 N ILE A 374 47.261 4.946 96.812 1.00 5.25 1227 CA ILE A 374 48.303 4.281 97.562 1.00 5.25 1228 CB ILE A 374 49.596 5.099 97.509 1.00 6.11 1229 CG2 ILE A 374 50.633 4.644 98.594 1.00 5.25 1230 CG1 ILE A 374 50.210 4.921 96.129 1.00 5.25 1231 CD1 ILE A 374 51.473 5.732 95.921 1.00 9.93 1232 C ILE A 374 47.800 4.089 99.012 1.00 8.80 1233 O ILE A 374 48.045 3.061 99.644 1.00 10.51 1234 N ALA A 375 47.051 5.045 99.538 1.00 11.95 1235 CA ALA A 375 46.522 4.857 100.879 1.00 11.55 1236 CB ALA A 375 45.772 6.112 101.348 1.00 18.37 1237 C ALA A 375 45.565 3.673 100.810 1.00 10.74 1238 O ALA A 375 45.736 2.692 101.512 1.00 12.44 1239 N ILE A 376 44.541 3.781 99.971 1.00 13.36 1240 CA ILE A 376 43.581 2.698 99.808 1.00 12.40 1241 CB ILE A 376 42.740 2.935 98.541 1.00 9.26 1242 CG2 ILE A 376 42.041 1.644 98.135 1.00 18.71 1243 CG1 ILE A 376 41.751 4.087 98.775 1.00 13.00 1244 CD1 ILE A 376 40.978 4.478 97.474 1.00 17.97 1245 C ILE A 376 44.306 1.338 99.702 1.00 12.50 1246 O ILE A 376 43.886 0.343 100.249 1.00 14.22 1247 N ASN A 377 45.431 1.305 99.014 1.00 15.95 1248 CA ASN A 377 46.217 0.075 98.837 1.00 12.41 1249 CB ASN A 377 47.332 0.356 97.817 1.00 15.42 1250 CG ASN A 377 48.167 −0.873 97.487 1.00 13.49 1251 OD1 ASN A 377 49.214 −1.104 98.085 1.00 20.76 1252 ND2 ASN A 377 47.721 −1.650 96.522 1.00 5.51 1253 C ASN A 377 46.822 −0.480 100.124 1.00 12.71 1254 O ASN A 377 46.791 −1.665 100.344 1.00 12.86 1255 N ILE A 378 47.389 0.386 100.951 1.00 9.60 1256 CA ILE A 378 48.007 −0.007 102.208 1.00 11.48 1257 CB ILE A 378 48.557 1.254 102.953 1.00 13.42 1258 CG2 ILE A 378 48.991 0.911 104.337 1.00 10.38 1259 CG1 ILE A 378 49.731 1.847 102.176 1.00 14.54 1260 CD1 ILE A 378 50.045 3.250 102.595 1.00 5.25 1261 C ILE A 378 47.018 −0.709 103.143 1.00 11.55 1262 O ILE A 378 47.382 −1.633 103.867 1.00 9.06 1263 N PHE A 379 45.775 −0.244 103.141 1.00 10.61 1264 CA PHE A 379 44.724 −0.812 103.989 1.00 12.29 1265 CB PHE A 379 43.781 0.293 104.436 1.00 7.47 1266 CG PHE A 379 44.440 1.315 105.268 1.00 11.02 1267 CD1 PHE A 379 44.988 0.966 106.506 1.00 9.62 1268 CD2 PHE A 379 44.434 2.646 104.866 1.00 11.32 1269 CE1 PHE A 379 45.520 1.966 107.363 1.00 15.85 1270 CE2 PHE A 379 44.951 3.653 105.686 1.00 18.67 1271 CZ PHE A 379 45.494 3.313 106.949 1.00 21.51 1272 C PHE A 379 43.914 −1.918 103.334 1.00 10.55 1273 O PHE A 379 42.677 −1.881 103.303 1.00 9.28 1274 N SER A 380 44.610 −2.909 102.810 1.00 13.88 1275 CA SER A 380 43.917 −4.015 102.177 1.00 17.32 1276 CB SER A 380 44.777 −4.563 101.039 1.00 22.85 1277 OG SER A 380 44.923 −3.634 99.988 1.00 11.41 1278 C SER A 380 43.699 −5.094 103.259 1.00 17.60 1279 O SER A 380 44.653 −5.748 103.690 1.00 17.72 1280 N ALA A 381 42.464 −5.273 103.719 1.00 17.30 1281 CA ALA A 381 42.195 −6.283 104.761 1.00 19.73 1282 CB ALA A 381 40.707 −6.274 105.140 1.00 21.74 1283 C ALA A 381 42.613 −7.724 104.431 1.00 18.37 1284 O ALA A 381 43.094 −8.438 105.304 1.00 22.04 1285 N ASP A 382 42.438 −8.141 103.178 1.00 14.77 1286 CA ASP A 382 42.754 −9.486 102.772 1.00 13.45 1287 CB ASP A 382 42.035 −9.807 101.457 1.00 13.39 1288 CG ASP A 382 42.630 −9.082 100.246 1.00 30.72 1289 OD1 ASP A 382 43.378 −8.081 100.397 1.00 22.68 1290 OD2 ASP A 382 42.334 −9.519 99.114 1.00 32.64 1291 C ASP A 382 44.238 −9.803 102.667 1.00 17.62 1292 O ASP A 382 44.605 −10.924 102.314 1.00 20.22 1293 N ARG A 383 45.110 −8.851 102.988 1.00 19.53 1294 CA ARG A 383 46.551 −9.137 102.878 1.00 22.22 1295 CB ARG A 383 47.426 −7.940 103.264 1.00 23.58 1296 CG ARG A 383 47.195 −6.716 102.426 1.00 35.26 1297 CD ARG A 383 47.697 −6.851 101.005 1.00 25.29 1298 NE ARG A 383 47.636 −5.552 100.332 1.00 23.14 1299 CZ ARG A 383 48.123 −5.319 99.126 1.00 23.43 1300 NH1 ARG A 383 48.710 −6.289 98.461 1.00 27.91 1301 NH2 ARG A 383 48.006 −4.121 98.580 1.00 27.85 1302 C ARG A 383 46.831 −10.242 103.839 1.00 18.57 1303 O ARG A 383 46.226 −10.305 104.920 1.00 25.15 1304 N PRO A 384 47.748 −11.131 103.473 1.00 16.47 1305 CD PRO A 384 48.511 −11.130 102.214 1.00 12.46 1306 CA PRO A 384 48.114 −12.259 104.335 1.00 14.68 1307 CB PRO A 384 49.348 −12.827 103.651 1.00 5.25 1308 CG PRO A 384 49.058 −12.518 102.173 1.00 5.25 1309 C PRO A 384 48.422 −11.868 105.799 1.00 19.79 1310 O PRO A 384 49.046 −10.820 106.076 1.00 27.07 1311 N ASN A 385 47.966 −12.706 106.729 1.00 20.14 1312 CA ASN A 385 48.279 −12.565 108.159 1.00 20.58 1313 CB ASN A 385 49.832 −12.711 108.399 1.00 20.36 1314 CG ASN A 385 50.474 −13.822 107.532 1.00 31.32 1315 OD1 ASN A 385 50.776 −13.633 106.344 1.00 41.94 1316 ND2 ASN A 385 50.647 −14.986 108.121 1.00 25.03 1317 C ASN A 385 47.749 −11.326 108.886 1.00 17.40 1318 O ASN A 385 48.181 −10.969 109.977 1.00 12.75 1319 N VAL A 386 46.797 −10.650 108.302 1.00 17.19 1320 CA VAL A 386 46.284 −9.501 109.029 1.00 17.88 1321 CB VAL A 386 45.340 −8.669 108.150 1.00 15.50 1322 CG1 VAL A 386 44.750 −7.581 108.934 1.00 10.72 1323 CG2 VAL A 386 46.087 −8.154 106.923 1.00 13.81 1324 C VAL A 386 45.513 −10.006 110.268 1.00 21.92 1325 O VAL A 386 44.720 −10.957 110.214 1.00 20.83 1326 N GLN A 387 45.761 −9.372 111.400 1.00 26.53 1327 CA GLN A 387 45.084 −9.753 112.637 1.00 30.70 1328 CB GLN A 387 45.891 −9.282 113.836 1.00 37.12 1329 CG GLN A 387 46.969 −10.223 114.318 1.00 44.09 1330 CD GLN A 387 47.415 −9.894 115.738 1.00 47.02 1331 OE1 GLN A 387 48.257 −10.592 116.289 1.00 48.50 1332 NE2 GLN A 387 46.846 −8.825 116.338 1.00 39.63 1333 C GLN A 387 43.685 −9.129 112.729 1.00 30.34 1334 O GLN A 387 42.701 −9.777 113.055 1.00 31.77 1335 N GLU A 388 43.619 −7.850 112.424 1.00 25.71 1336 CA GLU A 388 42.381 −7.135 112.477 1.00 20.29 1337 CB GLU A 388 42.582 −5.990 113.437 1.00 15.19 1338 CG GLU A 388 43.133 −6.517 114.737 1.00 19.58 1339 CD GLU A 388 43.239 −5.442 115.809 1.00 11.20 1340 OE1 GLU A 388 44.330 −4.881 115.937 1.00 19.48 1341 OE2 GLU A 388 42.246 −5.134 116.503 1.00 17.08 1342 C GLU A 388 41.930 −6.653 111.094 1.00 16.35 1343 O GLU A 388 41.896 −5.473 110.821 1.00 15.52 1344 N PRO A 389 41.589 −7.586 110.202 1.00 16.54 1345 CD PRO A 389 41.398 −9.024 110.443 1.00 16.80 1346 CA PRO A 389 41.146 −7.232 108.857 1.00 20.31 1347 CB PRO A 389 40.773 −8.579 108.250 1.00 24.57 1348 CG PRO A 389 40.322 −9.336 109.442 1.00 16.51 1349 C PRO A 389 39.984 −6.296 108.944 1.00 22.62 1350 O PRO A 389 40.076 −5.171 108.451 1.00 29.81 1351 N GLY A 390 38.905 −6.756 109.578 1.00 19.40 1352 CA GLY A 390 37.722 −5.926 109.734 1.00 20.42 1353 C GLY A 390 38.076 −4.507 110.166 1.00 21.49 1354 O GLY A 390 37.394 −3.523 109.865 1.00 23.11 1355 N ARG A 391 39.173 −4.408 110.898 1.00 22.62 1356 CA ARG A 391 39.645 −3.130 111.360 1.00 19.89 1357 CB ARG A 391 40.538 −3.343 112.583 1.00 14.12 1358 CG ARG A 391 40.581 −2.157 113.490 1.00 18.23 1359 CD ARG A 391 41.360 −2.447 114.786 1.00 13.23 1360 NE ARG A 391 42.102 −1.258 115.228 1.00 22.11 1361 CZ ARG A 391 43.090 −1.273 116.105 1.00 18.99 1362 NH1 ARG A 391 43.462 −2.422 116.644 1.00 20.41 1363 NH2 ARG A 391 43.689 −0.135 116.424 1.00 29.33 1364 C ARG A 391 40.407 −2.458 110.187 1.00 18.96 1365 O ARG A 391 40.183 −1.282 109.880 1.00 20.35 1366 N VAL A 392 41.298 −3.199 109.529 1.00 15.96 1367 CA VAL A 392 42.020 −2.656 108.400 1.00 17.16 1368 CB VAL A 392 42.878 −3.720 107.771 1.00 13.89 1369 CG1 VAL A 392 43.494 −3.210 106.464 1.00 8.04 1370 CG2 VAL A 392 43.951 −4.098 108.761 1.00 9.26 1371 C VAL A 392 41.008 −2.148 107.378 1.00 20.53 1372 O VAL A 392 41.144 −1.061 106.829 1.00 22.78 1373 N GLU A 393 39.960 −2.922 107.153 1.00 20.85 1374 CA GLU A 393 38.941 −2.543 106.187 1.00 24.73 1375 CB GLU A 393 37.948 −3.690 106.044 1.00 22.33 1376 CG GLU A 393 36.836 −3.509 105.029 1.00 30.78 1377 CD GLU A 393 35.988 −4.807 104.891 1.00 37.98 1378 OE1 GLU A 393 34.815 −4.762 104.458 1.00 25.11 1379 OE2 GLU A 393 36.508 −5.888 105.234 1.00 38.44 1380 C GLU A 393 38.241 −1.255 106.594 1.00 26.29 1381 O GLU A 393 37.967 −0.396 105.778 1.00 29.48 1382 N ALA A 394 37.967 −1.109 107.873 1.00 25.71 1383 CA ALA A 394 37.295 0.083 108.330 1.00 23.23 1384 CB ALA A 394 37.029 −0.004 109.876 1.00 5.25 1385 C ALA A 394 38.192 1.272 107.997 1.00 24.37 1386 O ALA A 394 37.699 2.322 107.552 1.00 20.89 1387 N LEU A 395 39.504 1.101 108.226 1.00 26.86 1388 CA LEU A 395 40.502 2.157 107.978 1.00 26.79 1389 CB LEU A 395 41.869 1.725 108.485 1.00 17.72 1390 CG LEU A 395 42.141 1.960 109.968 1.00 23.47 1391 CD1 LEU A 395 43.497 1.279 110.420 1.00 6.26 1392 CD2 LEU A 395 42.164 3.475 110.160 1.00 6.73 1393 C LEU A 395 40.631 2.547 106.513 1.00 31.66 1394 O LEU A 395 41.083 3.618 106.177 1.00 34.95 1395 N GLN A 396 40.185 1.688 105.624 1.00 33.84 1396 CA GLN A 396 40.314 1.993 104.228 1.00 29.48 1397 CB GLN A 396 40.298 0.680 103.433 1.00 31.37 1398 CG GLN A 396 40.659 0.831 101.968 1.00 30.28 1399 CD GLN A 396 40.428 −0.434 101.167 1.00 27.29 1400 OE1 GLN A 396 39.296 −0.842 100.941 1.00 33.68 1401 NE2 GLN A 396 41.501 −1.066 100.748 1.00 31.43 1402 C GLN A 396 39.247 2.905 103.703 1.00 27.95 1403 O GLN A 396 39.502 3.852 102.986 1.00 34.21 1404 N GLN A 397 38.033 2.606 104.075 1.00 28.79 1405 CA GLN A 397 36.888 3.304 103.564 1.00 27.47 1406 CB GLN A 397 35.665 2.707 104.272 1.00 23.47 1407 CG GLN A 397 35.922 1.192 104.530 1.00 28.31 1408 CD GLN A 397 35.505 0.226 103.395 1.00 40.98 1409 OE1 GLN A 397 36.280 −0.668 102.997 1.00 31.54 1410 NE2 GLN A 397 34.273 0.390 102.895 1.00 44.00 1411 C GLN A 397 36.913 4.804 103.523 1.00 24.58 1412 O GLN A 397 36.535 5.393 102.530 1.00 28.53 1413 N PRO A 398 37.409 5.444 104.559 1.00 23.95 1414 CD PRO A 398 37.715 4.894 105.881 1.00 26.73 1415 CA PRO A 398 37.437 6.914 104.520 1.00 23.31 1416 CB PRO A 398 38.221 7.287 105.775 1.00 19.47 1417 CG PRO A 398 37.979 6.161 106.703 1.00 37.68 1418 C PRO A 398 38.166 7.389 103.230 1.00 25.88 1419 O PRO A 398 37.798 8.397 102.623 1.00 25.59 1420 N TYR A 399 39.213 6.657 102.835 1.00 26.35 1421 CA TYR A 399 40.036 7.001 101.663 1.00 22.46 1422 CB TYR A 399 41.414 6.296 101.717 1.00 15.92 1423 CG TYR A 399 42.256 6.745 102.917 1.00 10.71 1424 CD1 TYR A 399 42.724 8.047 103.003 1.00 15.66 1425 CE1 TYR A 399 43.385 8.505 104.108 1.00 9.61 1426 CD2 TYR A 399 42.497 5.898 103.989 1.00 5.25 1427 CE2 TYR A 399 43.169 6.335 105.110 1.00 6.63 1428 CZ TYR A 399 43.615 7.654 105.169 1.00 17.65 1429 OH TYR A 399 44.307 8.110 106.287 1.00 18.05 1430 C TYR A 399 39.313 6.673 100.382 1.00 21.91 1431 O TYR A 399 39.317 7.488 99.450 1.00 17.12 1432 N VAL A 400 38.671 5.504 100.324 1.00 19.13 1433 CA VAL A 400 37.931 5.185 99.108 1.00 19.63 1434 CB VAL A 400 37.121 3.953 99.257 1.00 16.29 1435 CG1 VAL A 400 36.263 3.749 98.029 1.00 13.91 1436 CG2 VAL A 400 38.063 2.765 99.460 1.00 22.87 1437 C VAL A 400 37.003 6.358 98.859 1.00 25.95 1438 O VAL A 400 37.084 7.003 97.815 1.00 30.52 1439 N GLU A 401 36.147 6.663 99.836 1.00 28.51 1440 CA GLU A 401 35.241 7.812 99.723 1.00 28.24 1441 CB GLU A 401 34.688 8.215 101.081 1.00 14.53 1442 CG GLU A 401 33.522 7.390 101.523 1.00 45.77 1443 CD GLU A 401 32.410 8.230 102.120 1.00 42.44 1444 OE1 GLU A 401 31.240 8.032 101.702 1.00 39.71 1445 OE2 GLU A 401 32.721 9.073 102.992 1.00 43.94 1446 C GLU A 401 35.926 9.044 99.132 1.00 26.96 1447 O GLU A 401 35.481 9.581 98.112 1.00 29.78 1448 N ALA A 402 36.994 9.491 99.793 1.00 23.76 1449 CA ALA A 402 37.723 10.650 99.351 1.00 19.13 1450 CB ALA A 402 39.009 10.730 100.095 1.00 14.35 1451 C ALA A 402 37.959 10.539 97.841 1.00 22.89 1452 O ALA A 402 37.731 11.497 97.106 1.00 20.80 1453 N LEU A 403 38.369 9.360 97.365 1.00 23.41 1454 CA LEU A 403 38.604 9.184 95.934 1.00 20.90 1455 CB LEU A 403 39.263 7.845 95.665 1.00 15.78 1456 CG LEU A 403 39.819 7.745 94.244 1.00 7.31 1457 CD1 LEU A 403 40.970 8.686 94.102 1.00 10.15 1458 CD2 LEU A 403 40.244 6.321 93.975 1.00 9.87 1459 C LEU A 403 37.314 9.284 95.116 1.00 22.22 1460 O LEU A 403 37.296 9.931 94.062 1.00 20.72 1461 N LEU A 404 36.255 8.615 95.597 1.00 24.61 1462 CA LEU A 404 34.915 8.621 94.975 1.00 20.80 1463 CB LEU A 404 33.871 7.926 95.877 1.00 11.48 1464 CG LEU A 404 32.500 7.836 95.160 1.00 7.08 1465 CD1 LEU A 404 32.690 7.079 93.867 1.00 15.09 1466 CD2 LEU A 404 31.489 7.059 95.975 1.00 8.23 1467 C LEU A 404 34.444 10.062 94.760 1.00 22.50 1468 O LEU A 404 34.107 10.461 93.672 1.00 25.06 1469 N SER A 405 34.425 10.831 95.834 1.00 23.12 1470 CA SER A 405 34.015 12.209 95.793 1.00 20.64 1471 CB SER A 405 33.946 12.735 97.234 1.00 27.30 1472 OG SER A 405 33.432 14.056 97.321 1.00 45.53 1473 C SER A 405 34.963 13.058 94.950 1.00 20.08 1474 O SER A 405 34.521 13.960 94.283 1.00 2545 1475 N TYR A 406 36.258 12.768 94.982 1.00 18.80 1476 CA TYR A 406 37.234 13.539 94.232 1.00 14.69 1477 CB TYR A 406 38.635 13.072 94.548 1.00 9.34 1478 CG TYR A 406 39.703 13.963 93.990 1.00 14.57 1479 CD1 TYR A 406 39.971 15.181 94.559 1.00 21.04 1480 CE1 TYR A 406 41.052 15.975 94.109 1.00 20.89 1481 CD2 TYR A 406 40.510 13.544 92.944 1.00 18.62 1482 CE2 TYR A 406 41.574 14.315 92.490 1.00 15.48 1483 CZ TYR A 406 41.858 15.542 93.087 1.00 21.87 1484 OH TYR A 406 42.990 16.313 92.740 1.00 19.24 1485 C TYR A 406 36.984 13.351 92.760 1.00 16.56 1486 O TYR A 406 36.818 14.334 92.035 1.00 20.10 1487 N THR A 407 36.950 12.091 92.325 1.00 16.86 1488 CA THR A 407 36.709 11.765 90.920 1.00 16.53 1489 CB THR A 407 36.771 10.217 90.692 1.00 13.61 1490 OG1 THR A 407 35.825 9.557 91.545 1.00 6.85 1491 CG2 THR A 407 38.127 9.678 90.980 1.00 5.25 1492 C THR A 407 35.353 12.334 90.394 1.00 18.56 1493 O THR A 407 35.258 12.774 89.251 1.00 12.45 1494 N ARG A 408 34.319 12.323 91.234 1.00 22.92 1495 CA ARG A 408 33.022 12.882 90.872 1.00 27.72 1496 CB ARG A 408 32.055 12.823 92.050 1.00 35.75 1497 CG ARG A 408 31.042 11.676 92.011 1.00 46.40 1498 CD ARG A 408 30.033 11.897 93.119 1.00 67.06 1499 NE ARG A 408 29.113 10.778 93.340 1.00 78.74 1500 CZ ARG A 408 28.091 10.798 94.203 1.00 83.77 1501 NH1 ARG A 408 27.838 11.878 94.937 1.00 83.98 1502 NH2 ARG A 408 27.321 9.725 94.345 1.00 84.62 1503 C ARG A 408 33.190 14.357 90.464 1.00 29.46 1504 O ARG A 408 32.576 14.825 89.498 1.00 33.89 1505 N ILE A 409 34.009 15.088 91.213 1.00 25.53 1506 CA ILE A 409 34.298 16.482 90.918 1.00 23.48 1507 CB ILE A 409 35.024 17.123 92.140 1.00 24.09 1508 CG2 ILE A 409 35.445 18.538 91.872 1.00 21.70 1509 CG1 ILE A 409 34.096 17.139 93.334 1.00 20.16 1510 CD1 ILE A 409 34.872 17.171 94.668 1.00 11.98 1511 C ILE A 409 35.193 16.628 89.647 1.00 24.10 1512 O ILE A 409 34.942 17.466 88.767 1.00 24.66 1513 N LYS A 410 36.218 15.795 89.547 1.00 20.96 1514 CA LYS A 410 37.128 15.876 88.442 1.00 18.34 1515 CB LYS A 410 38.342 15.008 88.742 1.00 18.67 1516 CG LYS A 410 39.498 15.178 87.782 1.00 24.94 1517 CD LYS A 410 40.700 14.291 88.125 1.00 26.23 1518 CE LYS A 410 41.936 14.709 87.307 1.00 28.36 1519 NZ LYS A 410 43.165 13.963 87.652 1.00 16.11 1520 C LYS A 410 36.543 15.551 87.053 1.00 16.91 1521 O LYS A 410 36.891 16.178 86.066 1.00 21.62 1522 N ARG A 411 35.664 14.579 86.954 1.00 14.05 1523 CA ARG A 411 35.084 14.241 85.653 1.00 14.43 1524 CB ARG A 411 35.856 13.117 84.943 1.00 14.95 1525 CG ARG A 411 37.215 13.516 84.372 1.00 16.11 1526 CD ARG A 411 37.699 12.437 83.398 1.00 22.77 1527 NE ARG A 411 39.073 12.656 82.949 1.00 34.57 1528 CZ ARG A 411 39.712 11.852 82.102 1.00 36.23 1529 NH1 ARG A 411 39.082 10.786 81.615 1.00 31.20 1530 NH2 ARG A 411 40.980 12.099 81.768 1.00 21.00 1531 C ARG A 411 33.698 13.756 85.953 1.00 14.95 1532 O ARG A 411 33.415 12.577 85.853 1.00 17.23 1533 N PRO A 412 32.802 14.674 86.324 1.00 18.27 1534 CD PRO A 412 32.882 16.161 86.322 1.00 19.78 1535 CA PRO A 412 31.454 14.197 86.633 1.00 15.45 1536 CB PRO A 412 30.736 15.469 87.069 1.00 12.96 1537 CG PRO A 412 31.447 16.581 86.230 1.00 16.38 1538 C PRO A 412 30.799 13.533 85.453 1.00 16.13 1539 O PRO A 412 29.947 12.656 85.640 1.00 18.43 1540 N GLN A 413 31.181 13.958 84.246 1.00 17.14 1541 CA GLN A 413 30.588 13.387 83.063 1.00 21.06 1542 CB GLN A 413 30.729 14.366 81.922 1.00 28.30 1543 CG GLN A 413 29.656 15.455 81.871 1.00 51.45 1544 CD GLN A 413 29.866 16.617 82.862 1.00 64.03 1545 OE1 GLN A 413 30.935 17.243 82.917 1.00 65.04 1546 NE2 GLN A 413 28.826 16.917 83.635 1.00 70.87 1547 C GLN A 413 31.161 11.998 82.673 1.00 24.10 1548 O GLN A 413 30.859 11.473 81.583 1.00 26.59 1549 N ASP A 414 31.953 11.391 83.572 1.00 21.34 1550 CA ASP A 414 32.585 10.081 83.333 1.00 17.69 1551 CB ASP A 414 33.993 10.273 82.720 1.00 11.40 1552 CG ASP A 414 34.767 8.953 82.490 1.00 17.52 1553 OD1 ASP A 414 34.185 7.858 82.262 1.00 11.40 1554 OD2 ASP A 414 36.017 9.024 82.505 1.00 17.55 1555 C ASP A 414 32.641 9.236 84.618 1.00 19.02 1556 O ASP A 414 33.678 8.965 85.193 1.00 15.28 1557 N GLN A 415 31.473 8.788 85.028 1.00 22.23 1558 CA GLN A 415 31.332 7.973 86.199 1.00 24.58 1559 CB GLN A 415 29.868 7.618 86.405 1.00 33.91 1560 CG GLN A 415 29.010 8.757 86.882 1.00 47.58 1561 CD GLN A 415 27.579 8.328 87.105 1.00 62.81 1562 OE1 GLN A 415 26.779 9.069 87.695 1.00 61.90 1563 NE2 GLN A 415 27.238 7.117 86.626 1.00 66.91 1564 C GLN A 415 32.138 6.699 86.231 1.00 25.21 1565 O GLN A 415 32.548 6.289 87.313 1.00 26.32 1566 N LEU A 416 32.361 6.053 85.087 1.00 23.46 1567 CA LEU A 416 33.133 4.808 85.116 1.00 23.46 1568 CB LEU A 416 32.895 4.021 83.845 1.00 18.13 1569 CG LEU A 416 31.434 3.623 83.707 1.00 21.27 1570 CD1 LEU A 416 31.304 2.711 82.504 1.00 30.47 1571 CD2 LEU A 416 30.965 2.901 84.982 1.00 12.71 1572 C LEU A 416 34.643 4.968 85.336 1.00 26.85 1573 O LEU A 416 35.378 3.977 85.477 1.00 26.62 1574 N ARG A 417 35.112 6.214 85.371 1.00 28.16 1575 CA ARG A 417 36.537 6.484 85.608 1.00 26.52 1576 CB ARG A 417 36.852 7.963 85.360 1.00 26.71 1577 CG ARG A 417 38.309 8.248 85.436 1.00 12.42 1578 CD ARG A 417 38.606 9.705 85.462 1.00 15.47 1579 NE ARG A 417 40.045 9.914 85.624 1.00 19.89 1580 CZ ARG A 417 40.610 10.604 86.617 1.00 30.02 1581 NH1 ARG A 417 39.871 11.171 87.569 1.00 29.62 1582 NH2 ARG A 417 41.930 10.740 86.644 1.00 26.16 1583 C ARG A 417 36.982 6.087 87.043 1.00 26.85 1584 O ARG A 417 38.138 5.729 87.262 1.00 24.07 1585 N PHE A 418 36.082 6.172 88.020 1.00 23.22 1586 CA PHE A 418 36.464 5.738 89.349 1.00 25.25 1587 CB PHE A 418 35.414 6.142 90.366 1.00 20.37 1588 CG PHE A 418 35.672 5.594 91.731 1.00 26.53 1589 CD1 PHE A 418 36.893 5.814 92.362 1.00 28.94 1590 CD2 PHE A 418 34.721 4.821 92.373 1.00 23.82 1591 CE1 PHE A 418 37.165 5.259 93.611 1.00 18.88 1592 CE2 PHE A 418 34.992 4.268 93.611 1.00 30.12 1593 CZ PHE A 418 36.219 4.490 94.226 1.00 24.28 1594 C PHE A 418 36.678 4.195 89.385 1.00 24.71 1595 O PHE A 418 37.649 3.691 89.976 1.00 20.41 1596 N PRO A 419 35.781 3.428 88.748 1.00 24.57 1597 CD PRO A 419 34.436 3.778 88.277 1.00 17.11 1598 CA PRO A 419 35.958 1.971 88.763 1.00 30.07 1599 CB PRO A 419 34.645 1.457 88.163 1.00 34.07 1600 CG PRO A 419 33.672 2.513 88.561 1.00 28.67 1601 C PRO A 419 37.183 1.537 87.946 1.00 31.08 1602 O PRO A 419 37.791 0.494 88.214 1.00 28.61 1603 N ARG A 420 37.535 2.326 86.931 1.00 32.83 1604 CA ARG A 420 38.698 1.973 86.116 1.00 29.40 1605 CB ARG A 420 38.885 2.953 84.965 1.00 26.01 1606 CG ARG A 420 38.051 2.688 83.774 1.00 15.64 1607 CD ARG A 420 38.357 3.783 82.682 1.00 16.77 1608 NE ARG A 420 37.213 3.819 81.800 1.00 32.31 1609 CZ ARG A 420 36.333 4.810 81.720 1.00 32.34 1610 NH1 ARG A 420 36.464 5.912 82.454 1.00 22.18 1611 NH2 ARG A 420 35.271 4.640 80.946 1.00 42.24 1612 C ARG A 420 39.909 2.045 87.046 1.00 26.85 1613 O ARG A 420 40.874 1.278 86.917 1.00 28.56 1614 N MET A 421 39.830 2.972 87.996 1.00 23.40 1615 CA MET A 421 40.909 3.172 88.942 1.00 22.94 1616 CB MET A 421 40.694 4.477 89.741 1.00 15.02 1617 CG MET A 421 41.658 5.548 89.351 1.00 15.86 1618 SD MET A 421 41.304 7.133 90.071 1.00 19.36 1619 CE MET A 421 40.500 8.004 88.644 1.00 23.77 1620 C MET A 421 41.048 1.971 89.872 1.00 20.18 1621 O MET A 421 42.110 1.333 89.896 1.00 18.21 1622 N LEU A 422 39.990 1.680 90.630 1.00 18.63 1623 CA LEU A 422 40.013 0.549 91.531 1.00 20.59 1624 CB LEU A 422 38.633 0.250 92.119 1.00 19.88 1625 CG LEU A 422 38.057 1.393 92.970 1.00 20.81 1626 CD1 LEU A 422 36.812 0.964 93.694 1.00 26.59 1627 CD2 LEU A 422 39.073 1.825 93.941 1.00 27.12 1628 C LEU A 422 40.513 −0.635 90.736 1.00 22.93 1629 O LEU A 422 41.365 −1.384 91.219 1.00 27.81 1630 N MET A 423 40.022 −0.794 89.511 1.00 21.99 1631 CA MET A 423 40.489 −1.888 88.652 1.00 23.39 1632 CB MET A 423 40.015 −1.632 87.207 1.00 23.04 1633 CG MET A 423 39.307 −2.819 86.610 1.00 34.27 1634 SD MET A 423 37.975 −3.396 87.683 1.00 34.89 1635 CE MET A 423 36.767 −2.077 87.334 1.00 35.94 1636 C MET A 423 42.046 −2.093 88.672 1.00 20.11 1637 O MET A 423 42.528 −3.222 88.577 1.00 17.25 1638 N LYS A 424 42.817 −1.009 88.795 1.00 17.68 1639 CA LYS A 424 44.271 −1.103 88.827 1.00 17.31 1640 CB LYS A 424 44.884 0.294 88.816 1.00 16.49 1641 CG LYS A 424 44.606 0.998 87.538 1.00 22.55 1642 CD LYS A 424 45.189 0.203 86.352 1.00 31.18 1643 CE LYS A 424 44.870 0.841 85.021 1.00 34.69 1644 NZ LYS A 424 43.422 0.627 84.683 1.00 47.10 1645 C LYS A 424 44.765 −1.897 90.026 1.00 16.52 1646 O LYS A 424 45.869 −2.485 89.989 1.00 13.57 1647 N LEU A 425 43.965 −1.891 91.095 1.00 14.69 1648 CA LEU A 425 44.294 −2.673 92.271 1.00 13.33 1649 CB LEU A 425 43.290 −2.400 93.397 1.00 10.78 1650 CG LEU A 425 43.319 −0.981 93.932 1.00 14.31 1651 CD1 LEU A 425 42.085 −0.776 94.736 1.00 22.37 1652 CD2 LEU A 425 44.560 −0.743 94.781 1.00 5.26 1653 C LEU A 425 44.251 −4.162 91.878 1.00 10.81 1654 O LEU A 425 44.988 −4.989 92.428 1.00 14.13 1655 N VAL A 426 43.378 −4.501 90.932 1.00 10.71 1656 CA VAL A 426 43.249 −5.878 90.490 1.00 13.91 1657 CB VAL A 426 42.128 −6.050 89.453 1.00 14.20 1658 CG1 VAL A 426 42.100 −7.491 89.014 1.00 9.66 1659 CG2 VAL A 426 40.753 −5.620 90.047 1.00 13.13 1660 C VAL A 426 44.569 −6.298 89.853 1.00 16.67 1661 O VAL A 426 45.161 −7.333 90.177 1.00 20.54 1662 N SER A 427 45.053 −5.463 88.957 1.00 13.21 1663 CA SER A 427 46.295 −5.754 88.293 1.00 14.68 1664 CB SER A 427 46.423 −4.782 87.146 1.00 20.09 1665 CG SER A 427 45.203 −4.792 86.410 1.00 20.17 1666 C SER A 427 47.543 −5.739 89.191 1.00 18.31 1667 O SER A 427 48.510 −6.495 88.914 1.00 18.50 1668 N LEU A 428 47.532 −4.897 90.239 1.00 16.56 1669 CA LEU A 428 48.670 −4.845 91.150 1.00 14.64 1670 CB LEU A 428 48.538 −3.709 92.179 1.00 9.37 1671 CG LEU A 428 48.587 −2.257 91.679 1.00 17.69 1672 CD1 LEU A 428 48.208 −1.301 92.778 1.00 18.66 1673 CD2 LEU A 428 49.967 −1.929 91.201 1.00 12.21 1674 C LEU A 428 48.832 −6.193 91.869 1.00 13.83 1675 O LEU A 428 49.929 −6.532 92.339 1.00 11.00 1676 N ARG A 429 47.758 −6.978 91.958 1.00 11.73 1677 CA ARG A 429 47.920 −8.256 92.630 1.00 17.81 1678 CB ARG A 429 46.590 −8.897 93.001 1.00 22.40 1679 CG ARG A 429 45.912 −8.348 94.206 1.00 9.68 1680 CD ARG A 429 46.815 −8.382 95.420 1.00 9.57 1681 NE ARG A 429 46.186 −7.536 96.441 1.00 13.29 1682 CZ ARG A 429 45.247 −7.954 97.279 1.00 8.67 1683 NH1 ARG A 429 44.855 −9.209 97.261 1.00 16.20 1684 NH2 ARG A 429 44.618 −7.101 98.053 1.00 16.87 1685 C ARG A 429 48.648 −9.168 91.678 1.00 22.72 1686 O ARG A 429 49.624 −9.814 92.064 1.00 27.52 1687 N THR A 430 48.178 −9.237 90.430 1.00 24.76 1688 CA THR A 430 48.843 −10.085 89.422 1.00 22.85 1689 CB THR A 430 48.187 −9.960 88.024 1.00 17.87 1690 OG1 THR A 430 46.864 −10.525 88.069 1.00 15.01 1691 CG2 THR A 430 49.011 −10.747 86.988 1.00 13.65 1692 C THR A 430 50.339 −9.712 89.333 1.00 22.44 1693 O THR A 430 51.227 −10.591 89.324 1.00 18.36 1694 N LEU A 431 50.610 −8.407 89.302 1.00 20.10 1695 CA LEU A 431 51.986 −7.944 89.248 1.00 19.15 1696 CB LEU A 431 52.032 −6.411 89.165 1.00 20.90 1697 CG LEU A 431 51.960 −5.865 87.725 1.00 18.63 1698 CD1 LEU A 431 50.846 −4.891 87.630 1.00 17.52 1699 CD2 LEU A 431 53.248 −5.193 87.356 1.00 23.80 1700 C LEU A 431 52.762 −8.448 90.457 1.00 17.38 1701 O LEU A 431 53.877 −8.911 90.333 1.00 20.17 1702 N SER A 432 52.148 −8.372 91.629 1.00 14.68 1703 CA SER A 432 52.763 −8.830 92.861 1.00 9.40 1704 CB SER A 432 51.801 −8.597 94.006 1.00 13.48 1705 OG SER A 432 52.423 −8.642 95.267 1.00 13.96 1706 C SER A 432 53.084 −10.315 92.737 1.00 13.39 1707 O SER A 432 54.115 −10.763 93.251 1.00 15.02 1708 N SER A 433 52.235 −11.086 92.042 1.00 13.33 1709 CA SER A 433 52.542 −12.518 91.866 1.00 12.64 1710 CB SER A 433 51.368 −13.308 91.295 1.00 12.54 1711 OG SER A 433 50.372 −13.577 92.249 1.00 27.96 1712 C SER A 433 53.710 −12.707 90.906 1.00 16.54 1713 O SER A 433 54.607 −13.521 91.180 1.00 19.09 1714 N VAL A 434 53.694 −11.961 89.790 1.00 13.12 1715 CA VAL A 434 54.728 −12.068 88.790 1.00 11.80 1716 CB VAL A 434 54.434 −11.119 87.641 1.00 21.88 1717 CG1 VAL A 434 55.491 −11.241 86.523 1.00 34.34 1718 CG2 VAL A 434 53.098 −11.466 87.095 1.00 23.02 1719 C VAL A 434 56.083 −11.765 89.401 1.00 12.40 1720 O VAL A 434 57.082 −12.486 89.125 1.00 5.25 1721 N HIS A 435 56.091 −10.710 90.235 1.00 13.26 1722 CA HIS A 435 57.270 −10.239 90.960 1.00 10.05 1723 CB HIS A 435 56.916 −9.025 91.765 1.00 10.18 1724 CG HIS A 435 57.873 −8.751 92.881 1.00 19.96 1725 CD2 HIS A 435 57.754 −8.925 94.224 1.00 18.04 1726 ND1 HIS A 435 59.117 −8.196 92.675 1.00 24.89 1727 CE1 HIS A 435 59.718 −8.032 93.842 1.00 27.76 1728 NE2 HIS A 435 58.912 −8.468 94.796 1.00 18.59 1729 C HIS A 435 57.785 −11.301 91.901 1.00 13.96 1730 O HIS A 435 58.962 −11.421 92.154 1.00 12.84 1731 N SER A 436 56.880 −12.090 92.439 1.00 22.00 1732 CA SER A 436 57.312 −13.147 93.328 1.00 25.75 1733 CB SER A 436 56.101 −13.745 94.059 1.00 18.10 1734 OG SER A 436 56.542 −14.368 95.254 1.00 39.95 1735 C SER A 436 58.043 −14.205 92.482 1.00 26.71 1736 O SER A 436 59.047 −14.772 92.925 1.00 29.44 1737 N GLU A 437 57.538 −14.459 91.271 1.00 26.62 1738 CA GLU A 437 58.157 −15.438 90.392 1.00 27.61 1739 CB GLU A 437 57.231 −15.781 89.211 1.00 32.32 1740 CG GLU A 437 55.970 −16.545 89.640 1.00 43.49 1741 CD GLU A 437 54.992 −16.826 88.517 1.00 44.02 1742 OE1 GLU A 437 54.224 −15.916 88.110 1.00 39.81 1743 OE2 GLU A 437 55.002 −17.978 88.033 1.00 52.54 1744 C GLU A 437 59.476 −14.858 89.907 1.00 30.11 1745 O GLU A 437 60.347 −15.573 89.446 1.00 32.93 1746 N GLN A 438 59.623 −13.545 90.038 1.00 29.79 1747 CA GLN A 438 60.845 −12.863 89.658 1.00 23.83 1748 CB GLN A 438 60.570 −11.387 89.459 1.00 22.03 1749 CG GLN A 438 61.790 −10.526 89.384 1.00 24.80 1750 CD GLN A 438 62.679 −10.921 88.263 1.00 23.62 1751 OE1 GLN A 438 62.559 −10.414 87.131 1.00 17.75 1752 NE2 GLN A 438 63.570 −11.867 88.549 1.00 10.79 1753 C GLN A 438 61.845 −13.042 90.788 1.00 24.89 1754 O GLN A 438 63.035 −13.107 90.544 1.00 25.50 1755 N VAL A 439 61.347 −13.111 92.025 1.00 29.45 1756 CA VAL A 439 62.176 −13.291 93.222 1.00 30.36 1757 CB VAL A 439 61.360 −13.040 94.525 1.00 31.12 1758 CG1 VAL A 439 62.202 −13.343 95.744 1.00 35.24 1759 CG2 VAL A 439 60.902 −11.601 94.585 1.00 28.21 1760 C VAL A 439 62.650 −14.736 93.238 1.00 32.10 1761 O VAL A 439 63.835 −15.036 93.419 1.00 34.80 1762 N PHE A 440 61.680 −15.618 93.062 1.00 31.65 1763 CA PHE A 440 61.884 −17.048 93.006 1.00 33.36 1764 CB PHE A 440 60.559 −17.695 92.602 1.00 43.52 1765 CG PHE A 440 60.697 −19.095 92.091 1.00 52.34 1766 CD1 PHE A 440 61.337 −19.355 90.866 1.00 53.44 1767 CD2 PHE A 440 60.253 −20.157 92.866 1.00 51.37 1768 CE1 PHE A 440 61.542 −20.657 90.437 1.00 58.67 1769 CE2 PHE A 440 60.453 −21.463 92.450 1.00 56.99 1770 CZ PHE A 440 61.102 −21.721 91.234 1.00 59.17 1771 C PHE A 440 62.957 −17.413 91.992 1.00 33.01 1772 O PHE A 440 63.773 −18.282 92.232 1.00 32.92 1773 N ALA A 441 62.910 −16.770 90.837 1.00 30.92 1774 CA ALA A 441 63.867 −17.041 89.795 1.00 33.32 1775 CB ALA A 441 63.280 −16.615 88.443 1.00 28.33 1776 C ALA A 441 65.171 −16.312 90.056 1.00 34.78 1777 O ALA A 441 66.236 −16.681 89.558 1.00 34.01 1778 N LEU A 442 65.078 −15.250 90.838 1.00 40.36 1779 CA LEU A 442 66.254 −14.451 91.150 1.00 40.69 1780 CB LEU A 442 65.871 −13.231 91.979 1.00 38.10 1781 CG LEU A 442 65.739 −11.948 91.209 1.00 35.38 1782 CD1 LEU A 442 65.584 −10.865 92.176 1.00 28.28 1783 CD2 LEU A 442 66.983 −11.755 90.407 1.00 39.43 1784 C LEU A 442 67.244 −15.279 91.931 1.00 43.23 1785 O LEU A 442 68.394 −15.408 91.548 1.00 43.93 1786 N ARG A 443 66.784 −15.849 93.033 1.00 45.47 1787 CA ARG A 443 67.651 −16.635 93.885 1.00 51.75 1788 CB ARG A 443 66.853 −17.149 95.070 1.00 54.53 1789 CG ARG A 443 65.760 −18.115 94.680 1.00 56.75 1790 CD ARG A 443 65.017 −18.637 95.882 1.00 69.71 1791 NE ARG A 443 65.428 −18.001 97.135 1.00 81.95 1792 CZ ARG A 443 65.400 −18.623 98.302 1.00 78.74 1793 NH1 ARG A 443 64.987 −19.875 98.346 1.00 79.02 1794 NH2 ARG A 443 65.783 −17.997 99.406 1.00 83.70 1795 C ARG A 443 68.255 −17.801 93.096 1.00 54.47 1796 O ARG A 443 69.404 −18.203 93.327 1.00 56.52 1797 N LEU A 444 67.474 −18.336 92.157 1.00 57.46 1798 CA LEU A 444 67.931 −19.431 91.299 1.00 56.62 1799 CB LEU A 444 66.830 −19.831 90.312 1.00 59.25 1800 CG LEU A 444 65.995 −21.008 90.831 1.00 58.14 1801 CD1 LEU A 444 64.687 −21.069 90.096 1.00 61.54 1802 CD2 LEU A 444 66.769 −22.284 90.629 1.00 63.49 1803 C LEU A 444 69.208 −19.055 90.579 1.00 54.88 1804 O LEU A 444 69.894 −19.897 90.078 1.00 53.96 1805 N GLN A 445 69.519 −17.770 90.536 1.00 60.24 1806 CA GLN A 445 70.760 −17.294 89.939 1.00 64.02 1807 CB GLN A 445 70.555 −15.973 89.182 1.00 62.89 1808 CG GLN A 445 70.029 −16.186 87.791 1.00 70.48 1809 CD GLN A 445 69.743 −14.899 87.019 1.00 79.70 1810 OE1 GLN A 445 69.949 −13.787 87.513 1.00 83.56 1811 NE2 GLN A 445 69.266 −15.055 85.790 1.00 75.40 1812 C GLN A 445 71.682 −17.052 91.137 1.00 66.51 1813 O GLN A 445 71.462 −17.588 92.244 1.00 61.81 1814 N ASP A 446 72.730 −16.262 90.925 1.00 70.85 1815 CA ASP A 446 73.628 −15.959 92.035 1.00 72.12 1816 CB ASP A 446 75.105 −15.935 91.595 1.00 76.38 1817 CG ASP A 446 76.046 −15.907 92.793 1.00 83.33 1818 OD1 ASP A 446 76.229 −16.979 93.418 1.00 82.21 1819 OD2 ASP A 446 76.572 −14.813 93.137 1.00 83.93 1820 C ASP A 446 73.217 −14.568 92.562 1.00 68.79 1821 O ASP A 446 73.930 −13.925 93.345 1.00 72.15 1822 N LYS A 447 72.054 −14.110 92.123 1.00 61.71 1823 CA LYS A 447 71.568 −12.820 92.537 1.00 56.09 1824 CB LYS A 447 70.763 −12.215 91.401 1.00 49.97 1825 CG LYS A 447 71.562 −11.250 90.572 1.00 55.67 1826 CD LYS A 447 71.274 −11.363 89.065 1.00 63.06 1827 CE LYS A 447 72.560 −11.557 88.271 1.00 63.18 1828 NZ LYS A 447 73.105 −12.933 88.506 1.00 72.36 1829 C LYS A 447 70.743 −12.903 93.822 1.00 53.51 1830 O LYS A 447 69.635 −13.451 93.839 1.00 52.52 1831 N LYS A 448 71.304 −12.377 94.907 1.00 49.20 1832 CA LYS A 448 70.604 −12.378 96.169 1.00 47.16 1833 CB LYS A 448 71.445 −13.071 97.233 1.00 49.48 1834 CG LYS A 448 71.046 −14.549 97.444 1.00 62.61 1835 CD LYS A 448 69.851 −14.716 98.413 1.00 67.54 1836 CE LYS A 448 68.552 −14.056 97.904 1.00 66.83 1837 NZ LYS A 448 68.053 −13.052 98.888 1.00 63.74 1838 C LYS A 448 70.210 −10.972 96.600 1.00 46.23 1839 O LYS A 448 70.942 −9.999 96.385 1.00 46.82 1840 N LEU A 449 69.025 −10.880 97.202 1.00 42.49 1841 CA LEU A 449 68.477 −9.606 97.658 1.00 38.18 1842 CB LEU A 449 66.964 −9.753 97.815 1.00 33.91 1843 CG LEU A 449 66.269 −10.457 96.646 1.00 36.17 1844 CD1 LEU A 449 64.771 −10.696 96.955 1.00 10.94 1845 CD2 LEU A 449 66.458 −9.591 95.389 1.00 35.40 1846 C LEU A 449 69.084 −9.118 98.969 1.00 34.08 1847 O LEU A 449 69.184 −9.875 99.912 1.00 40.43 1848 N PRO A 450 69.530 −7.857 99.034 1.00 28.11 1849 CD PRO A 450 69.629 −6.817 98.006 1.00 21.01 1850 CA PRO A 450 70.097 −7.415 100.312 1.00 27.75 1851 CB PRO A 450 70.333 −5.933 100.116 1.00 21.74 1852 CG PRO A 450 69.528 −5.608 98.846 1.00 26.89 1853 C PRO A 450 69.061 −7.665 101.374 1.00 30.49 1854 O PRO A 450 67.858 −7.637 101.071 1.00 28.32 1855 N PRO A 451 69.504 −7.909 102.631 1.00 32.59 1856 CD PRO A 451 70.885 −7.627 103.044 1.00 28.81 1857 CA PRO A 451 68.680 −8.187 103.821 1.00 32.25 1858 CB PRO A 451 69.584 −7.758 104.992 1.00 24.82 1859 CG PRO A 451 70.664 −6.951 104.345 1.00 23.17 1860 C PRO A 451 67.274 −7.569 103.909 1.00 30.85 1861 O PRO A 451 66.282 −8.303 104.031 1.00 33.81 1862 N LEU A 452 67.177 −6.245 103.862 1.00 24.53 1863 CA LEU A 452 65.863 −5.616 103.951 1.00 27.08 1864 CB LEU A 452 65.978 −4.111 103.775 1.00 30.47 1865 CG LEU A 452 64.687 −3.314 103.885 1.00 21.32 1866 CD1 LEU A 452 64.116 −3.523 105.260 1.00 27.16 1867 CD2 LEU A 452 64.959 −1.820 103.642 1.00 23.69 1868 C LEU A 452 64.839 −6.149 102.940 1.00 26.24 1869 O LEU A 452 63.734 −6.521 103.327 1.00 25.87 1870 N LEU A 453 65.206 −6.176 101.657 1.00 25.20 1871 CA LEU A 453 64.325 −6.665 100.605 1.00 24.92 1872 CB LEU A 453 64.973 −6.487 99.234 1.00 19.86 1873 CG LEU A 453 65.268 −5.025 98.933 1.00 21.10 1874 CD1 LEU A 453 65.936 −4.836 97.561 1.00 17.34 1875 CD2 LEU A 453 63.942 −4.295 98.975 1.00 10.81 1876 C LEU A 453 64.037 −8.125 100.835 1.00 26.37 1877 O LEU A 453 62.884 −8.565 100.836 1.00 28.39 1878 N SER A 454 65.110 −8.880 101.024 1.00 29.03 1879 CA SER A 454 65.013 −10.315 101.266 1.00 27.64 1880 CB SER A 454 66.397 −10.859 101.638 1.00 20.09 1881 OG SER A 454 66.275 −12.168 102.148 1.00 34.94 1882 C SER A 454 64.004 −10.660 102.377 1.00 23.26 1883 O SER A 454 63.401 −11.723 102.368 1.00 22.09 1884 N GLU A 455 63.828 −9.743 103.321 1.00 19.56 1885 CA GLU A 455 62.935 −9.975 104.428 1.00 20.53 1886 CB GLU A 455 63.162 −8.919 105.473 1.00 17.19 1887 CG GLU A 455 62.467 −9.149 106.738 1.00 28.76 1888 CD GLU A 455 62.962 −8.167 107.813 1.00 36.58 1889 OE1 GLU A 455 64.138 −8.236 108.230 1.00 34.71 1890 OE2 GLU A 455 62.187 −7.292 108.241 1.00 34.84 1891 C GLU A 455 61.523 −9.945 103.955 1.00 24.54 1892 O GLU A 455 60.768 −10.879 104.206 1.00 25.12 1893 N ILE A 456 61.187 −8.880 103.229 1.00 28.65 1894 CA ILE A 456 59.847 −8.657 102.688 1.00 28.59 1895 CB ILE A 456 59.691 −7.181 102.223 1.00 35.98 1896 CG2 ILE A 456 58.287 −6.906 101.712 1.00 44.98 1897 CG1 ILE A 456 59.972 −6.255 103.391 1.00 39.73 1898 CD1 ILE A 456 60.085 −4.841 102.959 1.00 48.93 1899 C ILE A 456 59.473 −9.527 101.524 1.00 24.83 1900 O ILE A 456 58.292 −9.774 101.305 1.00 23.51 1901 N TRP A 457 60.480 −10.011 100.801 1.00 26.84 1902 CA TRP A 457 60.237 −10.789 99.594 1.00 30.79 1903 CB TRP A 457 60.793 −10.025 98.378 1.00 30.70 1904 CG TRP A 457 60.180 −8.671 98.224 1.00 26.75 1905 CD2 TRP A 457 60.724 −7.544 97.533 1.00 25.63 1906 CE2 TRP A 457 59.788 −6.485 97.660 1.00 28.89 1907 CE3 TRP A 457 61.914 −7.313 96.836 1.00 17.92 1908 CD1 TRP A 457 58.966 −8.270 98.716 1.00 21.14 1909 NE1 TRP A 457 58.723 −6.971 98.383 1.00 16.57 1910 CZ2 TRP A 457 59.992 −5.216 97.095 1.00 23.51 1911 CZ3 TRP A 457 62.112 −6.066 96.283 1.00 27.28 1912 CH2 TRP A 457 61.152 −5.024 96.423 1.00 22.51 1913 C TRP A 457 60.710 −12.214 99.538 1.00 31.41 1914 O TRP A 457 60.088 −13.063 98.892 1.00 29.63 1915 N ASP A 458 61.818 −12.479 100.197 1.00 32.34 1916 CA ASP A 458 62.337 −13.814 100.159 1.00 35.03 1917 CB ASP A 458 63.768 −13.824 100.670 1.00 34.90 1918 CG ASP A 458 64.769 −13.691 99.569 1.00 38.51 1919 OD1 ASP A 458 64.570 −14.363 98.521 1.00 43.44 1920 OD2 ASP A 458 65.762 −12.945 99.769 1.00 42.94 1921 C ASP A 458 61.482 −14.771 100.971 1.00 40.93 1922 O ASP A 458 60.890 −14.395 101.989 1.00 41.04 1923 N VAL A 459 61.392 −16.012 100.502 1.00 47.90 1924 CA VAL A 459 60.634 −17.040 101.215 1.00 51.13 1925 CB VAL A 459 60.116 −18.089 100.266 1.00 36.52 1926 CG1 VAL A 459 59.392 −19.139 101.029 1.00 46.60 1927 CG2 VAL A 459 59.202 −17.439 99.278 1.00 44.26 1928 C VAL A 459 61.599 −17.699 102.193 1.00 58.53 1929 O VAL A 459 62.471 −18.482 101.794 1.00 60.86 1930 N HIS A 460 61.454 −17.382 103.472 1.00 65.09 1931 CA HIS A 460 62.350 −17.948 104.474 1.00 75.10 1932 CB HIS A 460 63.470 −16.945 104.783 1.00 78.97 1933 CG HIS A 460 62.963 −15.598 105.207 1.00 83.29 1934 CD2 HIS A 460 63.001 −14.961 106.405 1.00 85.25 1935 ND1 HIS A 460 62.268 −14.759 104.360 1.00 84.43 1936 CE1 HIS A 460 61.898 −13.670 105.011 1.00 78.08 1937 NE2 HIS A 460 62.331 −13.768 106.256 1.00 85.09 1938 C HIS A 460 61.595 −18.282 105.751 1.00 77.65 1939 O HIS A 460 60.932 −17.394 106.305 1.00 80.63 1940 N ALA A 461 61.701 −19.539 106.205 1.00 76.94 1941 CA ALA A 461 61.032 −19.991 107.429 1.00 77.86 1942 CB ALA A 461 62.036 −20.677 108.335 1.00 68.64 1943 C ALA A 461 60.326 −18.851 108.198 1.00 81.03 1944 O ALA A 461 60.979 −17.817 108.514 1.00 84.40 1945 OT ALA A 461 59.108 −18.987 108.475 1.00 81.32 1946 ALA A 461 1947 CB ALA B 218 19.034 7.478 89.070 1.00 43.15 1948 C ALA B 218 17.931 5.243 89.097 1.00 46.46 1949 O ALA B 218 18.818 4.400 89.085 1.00 52.84 1950 N ALA B 218 18.545 6.261 91.233 1.00 43.35 1951 CA ALA B 218 18.073 6.541 89.839 1.00 47.62 1952 N ALA B 219 16.788 5.128 88.454 1.00 44.52 1953 CA ALA B 219 16.409 3.957 87.713 1.00 41.03 1954 CB ALA B 219 14.932 4.005 87.422 1.00 34.92 1955 C ALA B 219 17.137 3.602 86.440 1.00 41.94 1956 O ALA B 219 17.480 4.420 85.616 1.00 44.70 1957 N LEU B 220 17.324 2.297 86.334 1.00 42.54 1958 CA LEU B 220 17.916 1.521 85.247 1.00 34.74 1959 CB LEU B 220 17.599 0.059 85.510 1.00 42.30 1960 CG LEU B 220 18.568 −0.758 86.318 1.00 37.19 1961 CD1 LEU B 220 18.090 −2.155 86.542 1.00 46.36 1962 CD2 LEU B 220 19.816 −0.778 85.512 1.00 47.29 1963 C LEU B 220 17.235 1.846 83.934 1.00 32.94 1964 O LEU B 220 16.066 2.210 83.879 1.00 27.71 1965 N THR B 221 17.947 1.664 82.847 1.00 31.90 1966 CA THR B 221 17.305 1.913 81.579 1.00 31.38 1967 CB THR B 221 18.289 2.280 80.478 1.00 27.57 1968 OG1 THR B 221 19.084 1.137 80.152 1.00 29.79 1969 CG2 THR B 221 19.160 3.402 80.917 1.00 17.32 1970 C THR B 221 16.660 0.565 81.201 1.00 33.47 1971 O THR B 221 16.822 −0.457 81.904 1.00 39.22 1972 N ALA B 222 15.915 0.569 80.103 1.00 27.17 1973 CA ALA B 222 15.240 −0.625 79.640 1.00 25.42 1974 CB ALA B 222 14.261 −0.253 78.495 1.00 10.46 1975 C ALA B 222 16.306 −1.579 79.145 1.00 23.41 1976 O ALA B 222 16.246 −2.793 79.414 1.00 20.42 1977 N ALA B 223 17.274 −1.013 78.424 1.00 20.88 1978 CA ALA B 223 18.341 −1.809 77.874 1.00 24.15 1979 CB ALA B 223 19.287 −0.931 77.082 1.00 20.53 1980 C ALA B 223 19.083 −2.542 78.993 1.00 28.88 1981 O ALA B 223 19.419 −3.748 78.865 1.00 28.82 1982 N GLN B 224 19.334 −1.826 80.093 1.00 29.60 1983 CA GLN B 224 20.056 −2.423 81.211 1.00 31.76 1984 CB GLN B 224 20.563 −1.320 82.158 1.00 27.51 1985 CG GLN B 224 21.613 −0.405 81.584 1.00 29.93 1986 CD GLN B 224 22.080 0.627 82.596 1.00 33.83 1987 OE1 GLN B 224 21.263 1.292 83.253 1.00 25.53 1988 NE2 GLN B 224 23.397 0.779 82.719 1.00 28.08 1989 C GLN B 224 19.207 −3.461 81.983 1.00 30.31 1990 O GLN B 224 19.723 −4.440 82.527 1.00 29.42 1991 N GLU B 225 17.906 −3.239 82.026 1.00 29.37 1992 CA GLU B 225 17.048 −4.150 82.720 1.00 30.65 1993 CB GLU B 225 15.651 −3.573 82.868 1.00 39.85 1994 CG GLU B 225 14.883 −4.208 84.022 1.00 48.26 1995 CD GLU B 225 13.600 −3.484 84.317 1.00 56.77 1996 OE1 GLU B 225 13.649 −2.238 84.448 1.00 65.13 1997 OE2 GLU B 225 12.552 −4.160 84.418 1.00 49.77 1998 C GLU B 225 16.993 −5.440 81.943 1.00 29.19 1999 O GLU B 225 17.083 −6.522 82.538 1.00 31.21 2000 N LEU B 226 16.850 −5.335 80.621 1.00 26.33 2001 CA LEU B 226 16.807 −6.527 79.779 1.00 27.01 2002 CB LEU B 226 16.699 −6.185 78.302 1.00 23.38 2003 CG LEU B 226 15.535 −6.924 77.627 1.00 31.95 2004 CD1 LEU B 226 15.517 −8.381 78.105 1.00 34.89 2005 CD2 LEU B 226 14.186 −6.253 78.003 1.00 29.33 2006 C LEU B 226 18.054 −7.349 79.967 1.00 28.78 2007 O LEU B 226 17.977 −8.537 80.302 1.00 32.80 2008 N MET B 227 19.201 −6.702 79.771 1.00 27.80 2009 CA MET B 227 20.515 −7.342 79.898 1.00 27.07 2010 CB MET B 227 21.590 −6.285 79.727 1.00 22.08 2011 CG MET B 227 22.970 −6.838 79.790 1.00 30.34 2012 SD MET B 227 23.710 −6.385 81.297 1.00 33.46 2013 CE MET B 227 23.478 −4.568 81.248 1.00 42.18 2014 C MET B 227 20.733 −8.099 81.212 1.00 26.99 2015 O MET B 227 21.194 −9.240 81.231 1.00 27.73 2016 N ILE B 228 20.393 −7.444 82.312 1.00 26.23 2017 CA ILE B 228 20.523 −8.043 83.633 1.00 21.67 2018 CB ILE B 228 20.181 −7.039 84.776 1.00 18.41 2019 CG2 ILE B 228 20.292 −7.744 86.087 1.00 14.71 2020 CG1 ILE B 228 21.122 −5.825 84.734 1.00 11.85 2021 CD1 ILE B 228 20.822 −4.797 85.744 1.00 5.36 2022 C ILE B 228 19.582 −9.227 83.758 1.00 19.46 2023 O ILE B 228 19.979 −10.299 84.207 1.00 13.61 2024 N GLN B 229 18.336 −9.025 83.344 1.00 23.63 2025 CA GLN B 229 17.327 −10.080 83.409 1.00 28.46 2026 CB GLN B 229 15.990 −9.587 82.881 1.00 28.33 2027 CG GLN B 229 14.828 −10.407 83.399 1.00 38.50 2028 CD GLN B 229 13.560 −10.231 82.552 1.00 52.93 2029 OE1 GLN B 229 13.351 −10.913 81.513 1.00 43.06 2030 NE2 GLN B 229 12.713 −9.303 82.982 1.00 52.10 2031 C GLN B 229 17.764 −11.292 82.613 1.00 28.34 2032 O GLN B 229 17.600 −12.432 83.064 1.00 31.45 2033 N GLN B 230 18.352 −11.041 81.449 1.00 28.55 2034 CA GLN B 230 18.840 −12.110 80.575 1.00 33.32 2035 CB GLN B 230 19.151 −11.527 79.203 1.00 40.65 2036 CG GLN B 230 17.968 −10.761 78.647 1.00 51.44 2037 CD GLN B 230 18.292 −10.024 77.374 1.00 60.22 2038 OE1 GLN B 230 19.391 −9.433 77.211 1.00 66.06 2039 NE2 GLN B 230 17.330 −10.034 76.452 1.00 56.15 2040 C GLN B 230 20.081 −12.839 81.118 1.00 34.16 2041 O GLN B 230 20.192 −14.061 81.000 1.00 34.60 2042 N LEU B 231 21.022 −12.086 81.690 1.00 33.62 2043 CA LEU B 231 22.232 −12.672 82.247 1.00 27.03 2044 CB LEU B 231 23.105 −11.596 82.862 1.00 24.13 2045 CG LEU B 231 24.142 −10.884 82.027 1.00 30.54 2046 CD1 LEU B 231 25.107 −10.252 83.033 1.00 39.41 2047 CD2 LEU B 231 24.901 −11.854 81.118 1.00 21.02 2048 C LEU B 231 21.838 −13.656 83.331 1.00 25.58 2049 O LEU B 231 22.368 −14.754 83.421 1.00 24.70 2050 N VAL B 232 20.901 −13.252 84.172 1.00 23.19 2051 CA VAL B 232 20.478 −14.123 85.237 1.00 20.58 2052 CB VAL B 232 19.534 −13.397 86.181 1.00 19.93 2053 CG1 VAL B 232 18.784 −14.414 87.042 1.00 6.79 2054 CG2 VAL B 232 20.365 −12.359 87.027 1.00 5.25 2055 C VAL B 232 19.809 −15.346 84.658 1.00 20.54 2056 O VAL B 232 20.014 −16.461 85.156 1.00 24.31 2057 N ALA B 233 19.013 −15.145 83.609 1.00 18.87 2058 CA ALA B 233 18.334 −16.272 82.970 1.00 17.83 2059 CB ALA B 233 17.430 −15.786 81.857 1.00 13.61 2060 C ALA B 233 19.361 −17.247 82.416 1.00 15.43 2061 O ALA B 233 19.247 −18.457 82.583 1.00 15.77 2062 N ALA B 234 20.375 −16.701 81.763 1.00 19.63 2063 CA ALA B 234 21.435 −17.500 81.165 1.00 23.28 2064 CB ALA B 234 22.367 −16.612 80.382 1.00 17.57 2065 C ALA B 234 22.207 −18.240 82.254 1.00 27.69 2066 O ALA B 234 22.658 −19.372 82.050 1.00 34.29 2067 N GLN B 235 22.347 −17.626 83.421 1.00 24.90 2068 CA GLN B 235 23.075 −18.279 84.484 1.00 26.11 2069 CB GLN B 235 23.219 −17.344 85.662 1.00 30.42 2070 CG GLN B 235 24.135 −17.845 86.735 1.00 42.13 2071 CD GLN B 235 25.458 −17.067 86.789 1.00 50.21 2072 OE1 GLN B 235 25.674 −16.205 87.680 1.00 33.87 2073 NE2 GLN B 235 26.348 −17.351 85.819 1.00 46.88 2074 C GLN B 235 22.310 −19.491 84.919 1.00 26.10 2075 O GLN B 235 22.888 −20.519 85.235 1.00 27.29 2076 N LEU B 236 20.988 −19.371 84.901 1.00 28.38 2077 CA LEU B 236 20.123 −20.465 85.337 1.00 30.72 2078 CB LEU B 236 18.703 −19.945 85.664 1.00 27.81 2079 CG LEU B 236 17.924 −20.844 86.651 1.00 28.43 2080 CD1 LEU B 236 18.850 −21.322 87.773 1.00 11.13 2081 CD2 LEU B 236 16.768 −20.057 87.251 1.00 18.53 2082 C LEU B 236 20.043 −21.610 84.335 1.00 30.32 2083 O LEU B 236 20.228 −22.794 84.676 1.00 28.58 2084 N GLN B 237 19.783 −21.250 83.091 1.00 26.79 2085 CA GLN B 237 19.687 −22.249 82.069 1.00 28.98 2086 CB GLN B 237 19.259 −21.576 80.760 1.00 35.06 2087 CG GLN B 237 17.742 −21.445 80.658 1.00 47.36 2088 CD GLN B 237 17.128 −22.745 80.202 1.00 53.79 2089 OE1 GLN B 237 16.011 −23.102 80.584 1.00 60.26 2090 NE2 GLN B 237 17.872 −23.473 79.366 1.00 42.25 2091 C GLN B 237 20.990 −23.031 81.918 1.00 28.95 2092 O GLN B 237 20.979 −24.268 81.847 1.00 28.13 2093 N CYS B 238 22.111 −22.315 81.881 1.00 28.66 2094 CA CYS B 238 23.397 −22.972 81.729 1.00 29.72 2095 CB CYS B 238 24.507 −21.942 81.564 1.00 34.27 2096 SG CYS B 238 24.593 −21.236 79.948 1.00 27.05 2097 C CYS B 238 23.680 −23.845 82.933 1.00 26.51 2098 O CYS B 238 24.299 −24.913 82.819 1.00 24.18 2099 N ASN B 239 23.204 −23.392 84.083 1.00 24.48 2100 CA ASN B 239 23.413 −24.149 85.290 1.00 28.69 2101 CB ASN B 239 23.089 −23.285 86.518 1.00 25.28 2102 CG ASN B 239 23.332 −24.028 87.820 1.00 29.79 2103 OD1 ASN B 239 24.423 −24.519 88.053 1.00 32.08 2104 ND2 ASN B 239 22.311 −24.119 88.669 1.00 42.98 2105 C ASN B 239 22.548 −25.430 85.274 1.00 31.07 2106 O ASN B 239 22.998 −26.550 85.621 1.00 29.58 2107 N ALA B 240 21.303 −25.263 84.846 1.00 31.87 2108 CA ALA B 240 20.380 −26.392 84.803 1.00 32.86 2109 CB ALA B 240 18.951 −25.912 84.500 1.00 19.97 2110 C ALA B 240 20.833 −27.385 83.756 1.00 35.15 2111 O ALA B 240 20.611 −28.567 83.881 1.00 38.25 2112 N ARG B 241 21.495 −26.886 82.724 1.00 38.35 2113 CA ARG B 241 21.977 −27.692 81.605 1.00 37.53 2114 CB ARG B 241 22.541 −26.766 80.560 1.00 37.26 2115 CG ARG B 241 23.010 −27.420 79.286 1.00 40.31 2116 CD ARG B 241 22.676 −26.557 78.049 1.00 48.97 2117 NE ARG B 241 22.668 −25.105 78.299 1.00 59.22 2118 CZ ARG B 241 21.778 −24.271 77.761 1.00 58.75 2119 NH1 ARG B 241 20.858 −24.767 76.952 1.00 58.70 2120 NH2 ARG B 241 21.770 −22.967 78.066 1.00 53.27 2121 C ARG B 241 23.047 −28.699 81.959 1.00 39.86 2122 O ARG B 241 23.026 −29.840 81.534 1.00 42.08 2123 N SER B 242 23.981 −28.259 82.776 1.00 42.38 2124 CA SER B 242 25.109 −29.069 83.161 1.00 39.72 2125 CB SER B 242 26.323 −28.140 83.355 1.00 44.91 2126 OG SER B 242 26.690 −27.421 82.175 1.00 39.22 2127 C SER B 242 24.904 −29.917 84.394 1.00 38.57 2128 O SER B 242 25.572 −30.929 84.543 1.00 31.83 2129 N PHE B 243 23.966 −29.513 85.250 1.00 41.47 2130 CA PHE B 243 23.736 −30.217 86.497 1.00 42.59 2131 CB PHE B 243 24.229 −29.345 87.639 1.00 41.86 2132 CG PHE B 243 25.712 −29.064 87.593 1.00 41.55 2133 CD1 PHE B 243 26.206 −27.924 86.946 1.00 41.40 2134 CD2 PHE B 243 26.621 −29.956 88.201 1.00 35.89 2135 CE1 PHE B 243 27.603 −27.672 86.904 1.00 41.54 2136 CE2 PHE B 243 28.009 −29.724 88.167 1.00 33.17 2137 CZ PHE B 243 28.501 −28.575 87.515 1.00 44.01 2138 C PHE B 243 22.346 −30.730 86.824 1.00 44.54 2139 O PHE B 243 22.173 −31.408 87.815 1.00 49.89 2140 N SER B 244 21.355 −30.398 86.013 1.00 45.17 2141 CA SER B 244 20.013 −30.917 86.225 1.00 44.26 2142 CB SER B 244 19.172 −30.724 84.975 1.00 48.33 2143 OG SER B 244 18.426 −29.525 85.050 1.00 51.93 2144 C SER B 244 20.112 −32.402 86.496 1.00 46.85 2145 O SER B 244 19.657 −32.890 87.522 1.00 49.00 2146 N ASP B 245 20.717 −33.106 85.550 1.00 49.90 2147 CA ASP B 245 20.938 −34.530 85.655 1.00 52.24 2148 CB ASP B 245 21.253 −35.097 84.272 1.00 61.31 2149 CG ASP B 245 20.013 −35.253 83.453 1.00 73.36 2150 OD1 ASP B 245 18.925 −35.317 84.092 1.00 81.72 2151 OD2 ASP B 245 20.118 −35.316 82.203 1.00 79.76 2152 C ASP B 245 22.083 −34.775 86.611 1.00 49.00 2153 O ASP B 245 23.127 −34.151 86.512 1.00 50.73 2154 N GLN B 246 21.886 −35.677 87.550 1.00 45.53 2155 CA GLN B 246 22.928 −35.942 88.500 1.00 43.82 2156 CB GLN B 246 22.429 −36.961 89.497 1.00 49.76 2157 CG GLN B 246 23.483 −37.580 90.380 1.00 53.84 2158 CD GLN B 246 22.870 −37.989 91.686 1.00 54.86 2159 OE1 GLN B 246 23.045 −39.112 92.155 1.00 55.22 2160 NE2 GLN B 246 22.122 −37.066 92.287 1.00 56.87 2161 C GLN B 246 24.203 −36.419 87.837 1.00 43.71 2162 O GLN B 246 24.186 −37.286 86.960 1.00 44.65 2163 N PRO B 247 25.341 −35.853 88.252 1.00 43.54 2164 CD PRO B 247 25.529 −34.846 89.315 1.00 43.31 2165 CA PRO B 247 26.611 −36.269 87.651 1.00 43.57 2166 CB PRO B 247 27.665 −35.411 88.352 1.00 43.02 2167 CG PRO B 247 26.919 −34.345 89.074 1.00 41.73 2168 C PRO B 247 26.939 −37.735 87.855 1.00 45.12 2169 O PRO B 247 26.759 −38.268 88.954 1.00 44.37 2170 N LYS B 248 27.448 −38.362 86.792 1.00 48.61 2171 CA LYS B 248 27.897 −39.766 86.812 1.00 45.27 2172 CB LYS B 248 27.730 −40.391 85.424 1.00 50.09 2173 CG LYS B 248 26.380 −40.138 84.785 1.00 54.27 2174 CD LYS B 248 25.309 −41.021 85.407 1.00 37.79 2175 CE LYS B 248 24.054 −41.016 84.558 1.00 45.41 2176 NZ LYS B 248 23.084 −41.991 85.091 1.00 48.02 2177 C LYS B 248 29.399 −39.607 87.110 1.00 42.33 2178 O LYS B 248 30.246 −39.782 86.250 1.00 47.14 2179 N VAL B 249 29.728 −39.276 88.341 1.00 37.10 2180 CA VAL B 249 31.107 −39.014 88.698 1.00 33.75 2181 CB VAL B 249 31.175 −37.518 89.217 1.00 30.79 2182 CG1 VAL B 249 32.573 −37.103 89.545 1.00 31.67 2183 CG2 VAL B 249 30.612 −36.576 88.177 1.00 22.73 2184 C VAL B 249 31.652 −39.991 89.765 1.00 34.87 2185 O VAL B 249 30.892 −40.641 90.500 1.00 37.01 2186 N THR B 250 32.971 −40.115 89.848 1.00 32.17 2187 CA THR B 250 33.555 −40.935 90.902 1.00 31.48 2188 CB THR B 250 35.075 −40.691 91.007 1.00 30.25 2189 OG1 THR B 250 35.711 −41.205 89.831 1.00 38.00 2190 CG2 THR B 250 35.642 −41.378 92.248 1.00 25.30 2191 C THR B 250 32.870 −40.495 92.203 1.00 27.91 2192 O THR B 250 32.908 −39.320 92.552 1.00 26.73 2193 N PRO B 251 32.213 −41.425 92.922 1.00 28.52 2194 CD PRO B 251 32.263 −42.887 92.717 1.00 29.08 2195 CA PRO B 251 31.518 −41.087 94.184 1.00 28.02 2196 CB PRO B 251 30.795 −42.379 94.532 1.00 25.83 2197 CG PRO B 251 31.771 −43.428 94.058 1.00 30.66 2198 C PRO B 251 32.428 −40.620 95.337 1.00 24.48 2199 O PRO B 251 33.609 −41.024 95.405 1.00 23.99 2200 N TRP B 252 31.899 −39.755 96.208 1.00 19.10 2201 CA TRP B 252 32.685 −39.295 97.335 1.00 21.37 2202 CB TRP B 252 32.013 −38.096 97.975 1.00 18.10 2203 CG TRP B 252 32.754 −37.556 99.194 1.00 31.18 2204 CD2 TRP B 252 33.789 −36.556 99.217 1.00 35.34 2205 CE2 TRP B 252 34.150 −36.355 100.581 1.00 38.50 2206 CE3 TRP B 252 34.463 −35.820 98.226 1.00 37.47 2207 CD1 TRP B 252 32.535 −37.904 100.517 1.00 31.91 2208 NE1 TRP B 252 33.366 −37.183 101.348 1.00 30.53 2209 CZ2 TRP B 252 35.139 −35.424 100.969 1.00 33.94 2210 CZ3 TRP B 252 35.453 −34.896 98.624 1.00 38.18 2211 CH2 TRP B 252 35.779 −34.717 99.976 1.00 30.25 2212 C TRP B 252 32.802 −40.479 98.313 1.00 27.08 2213 O TRP B 252 31.830 −41.038 98.769 1.00 25.70 2214 N PRO B 253 34.012 −40.872 98.653 1.00 32.95 2215 CD PRO B 253 35.349 −40.373 98.286 1.00 42.21 2216 CA PRO B 253 34.082 −42.010 99.566 1.00 39.27 2217 CB PRO B 253 35.532 −42.483 99.409 1.00 36.35 2218 CG PRO B 253 36.272 −41.159 99.242 1.00 46.96 2219 C PRO B 253 33.752 −41.712 101.026 1.00 46.94 2220 O PRO B 253 33.999 −40.605 101.516 1.00 49.86 2221 N LEU B 254 33.216 −42.694 101.750 1.00 51.33 2222 CA LEU B 254 32.953 −42.526 103.192 1.00 57.46 2223 CB LEU B 254 31.395 −42.907 103.314 1.00 53.44 2224 CG LEU B 254 30.274 −42.099 102.497 1.00 56.64 2225 CD1 LEU B 254 28.822 −42.493 102.882 1.00 52.37 2226 CD2 LEU B 254 30.438 −40.584 102.757 1.00 56.12 2227 C LEU B 254 34.020 −43.213 104.160 1.00 60.78 2228 O LEU B 254 33.580 −43.849 105.300 1.00 64.15 2229 N ALA B 258 35.369 −42.937 103.834 1.00 65.16 2230 CA ALA B 258 36.450 −43.716 104.419 1.00 66.69 2231 CB ALA B 258 36.889 −44.471 103.293 1.00 72.53 2232 C ALA B 258 37.782 −43.192 105.164 1.00 70.13 2233 O ALA B 258 37.780 −42.100 105.635 1.00 71.40 2234 N GLN B 259 38.939 −43.934 105.136 1.00 72.67 2235 CA GLN B 259 40.241 −43.402 105.670 1.00 76.37 2236 CB GLN B 259 40.305 −43.514 107.206 1.00 68.08 2237 CG GLN B 259 41.502 −42.815 107.804 1.00 69.45 2238 CD GLN B 259 41.637 −41.366 107.330 1.00 76.44 2239 OE1 GLN B 259 41.888 −41.087 106.147 1.00 76.42 2240 NE2 GLN B 259 41.461 −40.438 108.254 1.00 80.79 2241 C GLN B 259 41.473 −44.121 105.020 1.00 79.69 2242 O GLN B 259 41.876 −45.192 105.497 1.00 85.25 2243 N SER B 260 42.110 −43.532 103.996 1.00 77.25 2244 CA SER B 260 43.195 −44.247 103.321 1.00 74.33 2245 CB SER B 260 42.564 −45.456 102.632 1.00 73.41 2246 OG SER B 260 43.486 −46.188 101.864 1.00 85.05 2247 C SER B 260 43.921 −43.391 102.287 1.00 74.57 2248 O SER B 260 43.700 −42.186 102.196 1.00 72.81 2249 N ARG B 261 44.785 −44.006 101.488 1.00 74.22 2250 CA ARG B 261 45.466 −43.213 100.476 1.00 74.23 2251 CB ARG B 261 46.889 −43.712 100.212 1.00 75.27 2252 CG ARG B 261 47.032 −44.508 98.959 1.00 81.06 2253 CD ARG B 261 48.426 −44.464 98.488 1.00 83.24 2254 NE ARG B 261 48.809 −43.162 97.961 1.00 78.10 2255 CZ ARG B 261 49.819 −43.022 97.121 1.00 74.06 2256 NH1 ARG B 261 50.477 −44.107 96.756 1.00 72.36 2257 NH2 ARG B 261 50.181 −41.823 96.678 1.00 73.29 2258 C ARG B 261 44.627 −43.306 99.208 1.00 73.70 2259 O ARG B 261 44.635 −42.398 98.374 1.00 75.08 2260 N ASP B 262 43.891 −44.410 99.080 1.00 70.69 2261 CA ASP B 262 43.022 −44.633 97.931 1.00 66.13 2262 CB ASP B 262 42.615 −46.117 97.868 1.00 73.04 2263 CG ASP B 262 43.741 −47.005 97.374 1.00 77.88 2264 OD1 ASP B 262 44.905 −46.722 97.730 1.00 82.47 2265 OD2 ASP B 262 43.468 −47.979 96.632 1.00 80.57 2266 C ASP B 262 41.805 −43.738 98.101 1.00 59.93 2267 O ASP B 262 41.185 −43.334 97.126 1.00 59.72 2268 N ALA B 263 41.494 −43.413 99.352 1.00 52.51 2269 CA ALA B 263 40.366 −42.561 99.652 1.00 47.78 2270 CB ALA B 263 40.012 −42.646 101.127 1.00 48.71 2271 C ALA B 263 40.688 −41.134 99.274 1.00 43.34 2272 O ALA B 263 39.812 −40.389 98.828 1.00 41.68 2273 N ARG B 264 41.946 −40.751 99.457 1.00 39.93 2274 CA ARG B 264 42.383 −39.400 99.106 1.00 43.90 2275 CB ARG B 264 43.821 −39.158 99.522 1.00 49.19 2276 CG ARG B 264 43.975 −37.848 100.271 1.00 56.17 2277 CD ARG B 264 45.403 −37.361 100.268 1.00 49.39 2278 NE ARG B 264 46.233 −37.978 101.289 1.00 46.87 2279 CZ ARG B 264 47.402 −38.513 101.019 1.00 56.69 2280 NH1 ARG B 264 47.826 −38.500 99.767 1.00 62.48 2281 NH2 ARG B 264 48.149 −39.018 101.996 1.00 66.89 2282 C ARG B 264 42.290 −39.200 97.599 1.00 45.41 2283 O ARG B 264 41.719 −38.220 97.100 1.00 46.21 2284 N GLN B 265 42.865 −40.138 96.868 1.00 43.29 2285 CA GLN B 265 42.788 −40.084 95.430 1.00 40.44 2286 CB GLN B 265 43.486 −41.331 94.836 1.00 51.49 2287 CG GLN B 265 43.962 −41.136 93.408 1.00 57.42 2288 CD GLN B 265 44.831 −39.884 93.300 1.00 68.00 2289 OE1 GLN B 265 44.359 −38.806 92.939 1.00 71.18 2290 NE2 GLN B 265 46.097 −40.019 93.653 1.00 68.29 2291 C GLN B 265 41.296 −40.032 94.968 1.00 38.02 2292 O GLN B 265 40.968 −39.357 93.981 1.00 35.36 2293 N GLN B 266 40.398 −40.737 95.661 1.00 30.69 2294 CA GLN B 266 39.022 −40.754 95.227 1.00 27.06 2295 CB GLN B 266 38.235 −41.787 95.990 1.00 28.96 2296 CG GLN B 266 37.447 −42.711 95.111 1.00 23.71 2297 CD GLN B 266 36.420 −43.468 95.896 1.00 21.89 2298 OE1 GLN B 266 35.372 −42.935 96.183 1.00 21.16 2299 NE2 GLN B 266 36.722 −44.717 96.260 1.00 30.55 2300 C GLN B 266 38.378 −39.415 95.419 1.00 27.40 2301 O GLN B 266 37.747 −38.876 94.487 1.00 29.30 2302 N ARG B 267 38.514 −38.877 96.631 1.00 24.33 2303 CA ARG B 267 37.920 −37.572 96.930 1.00 26.12 2304 CB ARG B 267 38.280 −37.143 98.361 1.00 25.38 2305 CG ARG B 267 38.071 −38.259 99.360 1.00 27.21 2306 CD ARG B 267 37.421 −37.794 100.678 1.00 34.15 2307 NE ARG B 267 38.348 −37.806 101.814 1.00 34.85 2308 CZ ARG B 267 38.780 −38.907 102.420 1.00 36.34 2309 NH1 ARG B 267 38.363 −40.098 102.011 1.00 45.28 2310 NH2 ARG B 267 39.658 −38.828 103.409 1.00 32.14 2311 C ARG B 267 38.491 −36.610 95.873 1.00 22.84 2312 O ARG B 267 37.790 −35.806 95.269 1.00 15.70 2313 N PHE B 268 39.785 −36.731 95.626 1.00 23.95 2314 CA PHE B 268 40.409 −35.895 94.613 1.00 25.07 2315 CB PHE B 268 41.904 −36.184 94.530 1.00 24.74 2316 CG PHE B 268 42.607 −35.373 93.493 1.00 25.39 2317 CD1 PHE B 268 42.895 −35.917 92.257 1.00 16.45 2318 CD2 PHE B 268 42.950 −34.043 93.736 1.00 27.98 2319 CE1 PHE B 268 43.503 −35.165 91.282 1.00 11.20 2320 CE2 PHE B 268 43.573 −33.271 92.742 1.00 14.52 2321 CZ PHE B 268 43.848 −33.837 91.523 1.00 14.38 2322 C PHE B 268 39.770 −36.089 93.229 1.00 22.23 2323 O PHE B 268 39.548 −35.130 92.488 1.00 24.28 2324 N ALA B 269 39.495 −37.330 92.865 1.00 17.72 2325 CA ALA B 269 38.871 −37.587 91.575 1.00 15.85 2326 CB ALA B 269 38.697 −39.087 91.327 1.00 8.82 2327 C ALA B 269 37.527 −36.913 91.601 1.00 14.49 2328 O ALA B 269 37.184 −36.165 90.664 1.00 13.42 2329 N HIS B 270 36.778 −37.160 92.684 1.00 12.69 2330 CA HIS B 270 35.453 −36.570 92.828 1.00 17.33 2331 CB HIS B 270 34.978 −36.787 94.254 1.00 8.12 2332 CG HIS B 270 33.552 −36.393 94.493 1.00 10.92 2333 CD2 HIS B 270 33.006 −35.389 95.224 1.00 15.72 2334 ND1 HIS B 270 32.491 −37.145 94.040 1.00 5.25 2335 CE1 HIS B 270 31.359 −36.637 94.491 1.00 5.25 2336 NE2 HIS B 270 31.643 −35.572 95.216 1.00 5.25 2337 C HIS B 270 35.477 −35.047 92.466 1.00 17.96 2338 O HIS B 270 34.770 −34.568 91.570 1.00 18.90 2339 N PHE B 271 36.333 −34.300 93.140 1.00 20.16 2340 CA PHE B 271 36.426 −32.876 92.880 1.00 23.78 2341 CB PHE B 271 37.450 −32.216 93.790 1.00 21.72 2342 CG PHE B 271 36.886 −31.701 95.056 1.00 14.87 2343 CD1 PHE B 271 35.683 −32.169 95.537 1.00 19.48 2344 CD2 PHE B 271 37.608 −30.792 95.821 1.00 25.55 2345 CE1 PHE B 271 35.184 −31.742 96.799 1.00 37.20 2346 CE2 PHE B 271 37.133 −30.354 97.076 1.00 36.95 2347 CZ PHE B 271 35.906 −30.839 97.570 1.00 35.14 2348 C PHE B 271 36.786 −32.579 91.457 1.00 22.69 2349 O PHE B 271 36.042 −31.890 90.800 1.00 21.96 2350 N THR B 272 37.917 −33.102 90.989 1.00 25.49 2351 CA THR B 272 38.384 −32.863 89.626 1.00 27.42 2352 CB THR B 272 39.608 −33.695 89.306 1.00 26.81 2353 OG1 THR B 272 39.429 −35.012 89.825 1.00 31.00 2354 CG2 THR B 272 40.847 −33.075 89.948 1.00 35.42 2355 C THR B 272 37.309 −33.174 88.612 1.00 32.00 2356 O THR B 272 37.042 −32.340 87.722 1.00 35.46 2357 N GLU B 273 36.669 −34.348 88.731 1.00 31.84 2358 CA GLU B 273 35.600 −34.701 87.785 1.00 28.90 2359 CB GLU B 273 35.083 −36.112 88.056 1.00 24.12 2360 CG GLU B 273 36.140 −37.185 87.911 1.00 23.98 2361 CD GLU B 273 35.649 −38.584 88.369 1.00 23.19 2362 OE1 GLU B 273 36.451 −39.488 88.617 1.00 21.84 2363 OE2 GLU B 273 34.446 −38.797 88.483 1.00 23.39 2364 C GLU B 273 34.434 −33.684 87.779 1.00 26.54 2365 O GLU B 273 33.786 −33.498 86.749 1.00 26.59 2366 N LEU B 274 34.177 −33.031 88.916 1.00 23.99 2367 CA LEU B 274 33.110 −32.034 89.008 1.00 24.74 2368 CB LEU B 274 32.719 −31.761 90.483 1.00 26.78 2369 CG LEU B 274 31.960 −32.918 91.164 1.00 32.47 2370 CD1 LEU B 274 31.737 −32.573 92.582 1.00 35.05 2371 CD2 LEU B 274 30.627 −33.199 90.490 1.00 12.62 2372 C LEU B 274 33.590 −30.756 88.334 1.00 22.06 2373 O LEU B 274 32.895 −30.191 87.499 1.00 23.23 2374 N ALA B 275 34.788 −30.318 88.701 1.00 17.79 2375 CA ALA B 275 35.415 −29.136 88.138 1.00 16.53 2376 CB ALA B 275 36.901 −29.184 88.419 1.00 13.07 2377 C ALA B 275 35.173 −29.077 86.633 1.00 18.81 2378 O ALA B 275 34.791 −28.025 86.097 1.00 16.04 2379 N ILE B 276 35.410 −30.213 85.965 1.00 16.66 2380 CA ILE B 276 35.211 −30.336 84.532 1.00 16.32 2381 CB ILE B 276 35.528 −31.759 84.053 1.00 13.21 2382 CG2 ILE B 276 35.144 −31.904 82.626 1.00 5.25 2383 CG1 ILE B 276 37.027 −32.038 84.263 1.00 15.91 2384 CD1 ILE B 276 37.448 −33.430 83.945 1.00 13.43 2385 C ILE B 276 33.797 −29.959 84.104 1.00 17.75 2386 O ILE B 276 33.616 −29.173 83.162 1.00 18.39 2387 N ILE B 277 32.789 −30.504 84.779 1.00 18.95 2388 CA ILE B 277 31.409 −30.146 84.417 1.00 19.47 2389 CB ILE B 277 30.370 −30.865 85.313 1.00 13.25 2390 CG2 ILE B 277 28.989 −30.524 84.874 1.00 5.25 2391 CG1 ILE B 277 30.580 −32.367 85.238 1.00 17.70 2392 CD1 ILE B 277 29.506 −33.160 85.901 1.00 18.78 2393 C ILE B 277 31.311 −28.627 84.646 1.00 20.85 2394 O ILE B 277 30.694 −27.878 83.889 1.00 19.66 2395 N SER B 278 31.950 −28.173 85.711 1.00 22.75 2396 CA SER B 278 31.931 −26.768 86.016 1.00 23.72 2397 CB SER B 278 32.685 −26.516 87.317 1.00 21.12 2398 OG SER B 278 32.715 −25.120 87.581 1.00 22.54 2399 C SER B 278 32.536 −25.924 84.853 1.00 25.47 2400 O SER B 278 31.984 −24.852 84.531 1.00 25.59 2401 N VAL B 279 33.649 −26.380 84.245 1.00 22.83 2402 CA VAL B 279 34.256 −25.631 83.142 1.00 21.95 2403 CB VAL B 279 35.545 −26.284 82.603 1.00 19.86 2404 CG1 VAL B 279 36.057 −25.500 81.376 1.00 9.36 2405 CG2 VAL B 279 36.610 −26.268 83.653 1.00 16.85 2406 C VAL B 279 33.263 −25.553 81.992 1.00 23.30 2407 O VAL B 279 33.157 −24.526 81.301 1.00 25.73 2408 N GLN B 280 32.525 −26.640 81.803 1.00 21.66 2409 CA GLN B 280 31.527 −26.697 80.766 1.00 20.75 2410 CB GLN B 280 30.966 −28.120 80.653 1.00 25.14 2411 CG GLN B 280 32.012 −29.144 80.267 1.00 22.03 2412 CD GLN B 280 31.458 −30.563 80.305 1.00 41.57 2413 OE1 GLN B 280 30.340 −30.809 80.804 1.00 47.16 2414 NE2 GLN B 280 32.236 −31.509 79.783 1.00 36.98 2415 C GLN B 280 30.398 −25.697 81.047 1.00 19.68 2416 O GLN B 280 29.809 −25.156 80.093 1.00 17.78 2417 N GLU B 281 30.064 −25.473 82.329 1.00 16.74 2418 CA GLU B 281 29.014 −24.495 82.636 1.00 16.62 2419 CB GLU B 281 28.607 −24.546 84.098 1.00 8.05 2420 CG GLU B 281 27.475 −23.574 84.423 1.00 25.22 2421 CD GLU B 281 27.028 −23.649 85.882 1.00 29.00 2422 OE1 GLU B 281 26.021 −22.965 86.242 1.00 29.66 2423 OE2 GLU B 281 27.692 −24.391 86.656 1.00 27.05 2424 C GLU B 281 29.545 −23.084 82.280 1.00 16.32 2425 O GLU B 281 28.867 −22.312 81.548 1.00 9.48 2426 N ILE B 282 30.755 −22.779 82.786 1.00 15.22 2427 CA ILE B 282 31.429 −21.515 82.531 1.00 16.61 2428 CB ILE B 282 32.798 −21.492 83.185 1.00 12.62 2429 CG2 ILE B 282 33.667 −20.365 82.596 1.00 11.77 2430 CG1 ILE B 282 32.587 −21.243 84.673 1.00 15.38 2431 CD1 ILE B 282 33.841 −21.159 85.506 1.00 8.99 2432 C ILE B 282 31.550 −21.212 81.040 1.00 18.29 2433 O ILE B 282 31.031 −20.180 80.558 1.00 14.48 2434 N VAL B 283 32.252 −22.082 80.316 1.00 15.81 2435 CA VAL B 283 32.363 −21.908 78.874 1.00 15.19 2436 CB VAL B 283 33.009 −23.127 78.275 1.00 7.26 2437 CG1 VAL B 283 32.934 −23.062 76.811 1.00 7.61 2438 CG2 VAL B 283 34.431 −23.206 78.710 1.00 6.21 2439 C VAL B 283 30.951 −21.706 78.221 1.00 17.61 2440 O VAL B 283 30.755 −20.882 77.325 1.00 20.88 2441 N ASP B 284 29.966 −22.435 78.721 1.00 18.45 2442 CA ASP B 284 28.614 −22.388 78.210 1.00 21.25 2443 CB ASP B 284 27.825 −23.516 78.871 1.00 35.01 2444 CG ASP B 284 26.585 −23.902 78.114 1.00 40.84 2445 OD1 ASP B 284 26.695 −24.069 76.884 1.00 58.98 2446 OD2 ASP B 284 25.515 −24.074 78.749 1.00 47.00 2447 C ASP B 284 27.957 −21.054 78.497 1.00 22.42 2448 O ASP B 284 27.123 −20.628 77.745 1.00 25.11 2449 N PHE B 285 28.310 −20.419 79.607 1.00 23.18 2450 CA PHE B 285 27.731 −19.141 79.984 1.00 20.36 2451 CB PHE B 285 27.863 −18.927 81.491 1.00 15.46 2452 CG PHE B 285 27.184 −17.683 81.969 1.00 28.69 2453 CD1 PHE B 285 25.779 −17.633 82.025 1.00 22.82 2454 CD2 PHE B 285 27.931 −16.539 82.310 1.00 22.64 2455 CE1 PHE B 285 25.129 −16.474 82.408 1.00 29.41 2456 CE2 PHE B 285 27.287 −15.364 82.698 1.00 34.28 2457 CZ PHE B 285 25.883 −15.322 82.749 1.00 33.57 2458 C PHE B 285 28.424 −17.972 79.244 1.00 22.96 2459 O PHE B 285 27.771 −16.987 78.851 1.00 26.62 2460 N ALA B 286 29.747 −18.050 79.085 1.00 19.90 2461 CA ALA B 286 30.460 −17.012 78.347 1.00 19.13 2462 CB ALA B 286 31.948 −17.373 78.215 1.00 14.49 2463 C ALA B 286 29.794 −16.865 76.949 1.00 18.53 2464 O ALA B 286 29.433 −15.754 76.538 1.00 20.73 2465 N LYS B 287 29.625 −17.982 76.240 1.00 15.74 2466 CA LYS B 287 28.995 −17.958 74.942 1.00 21.37 2467 CB LYS B 287 28.667 −19.373 74.480 1.00 33.02 2468 CG LYS B 287 29.817 −20.189 73.913 1.00 30.82 2469 CD LYS B 287 29.255 −21.152 72.890 1.00 40.12 2470 CE LYS B 287 30.245 −22.209 72.466 1.00 44.68 2471 NZ LYS B 287 30.510 −23.148 73.581 1.00 37.69 2472 C LYS B 287 27.702 −17.157 74.953 1.00 22.71 2473 O LYS B 287 27.255 −16.707 73.910 1.00 22.47 2474 N GLN B 288 27.117 −16.967 76.138 1.00 25.38 2475 CA GLN B 288 25.841 −16.256 76.278 1.00 23.59 2476 CB GLN B 288 24.912 −17.076 77.176 1.00 24.27 2477 CG GLN B 288 24.675 −18.469 76.639 1.00 28.01 2478 CD GLN B 288 23.224 −18.774 76.525 1.00 42.38 2479 OE1 GLN B 288 22.640 −19.488 77.363 1.00 51.37 2480 NE2 GLN B 288 22.601 −18.212 75.498 1.00 45.89 2481 C GLN B 288 25.919 −14.817 76.777 1.00 20.41 2482 O GLN B 288 24.895 −14.098 76.809 1.00 18.32 2483 N VAL B 289 27.122 −14.396 77.160 1.00 17.16 2484 CA VAL B 289 27.303 −13.035 77.633 1.00 18.12 2485 CB VAL B 289 28.555 −12.911 78.503 1.00 18.92 2486 CG1 VAL B 289 28.756 −11.468 78.863 1.00 7.11 2487 CG2 VAL B 289 28.405 −13.791 79.757 1.00 19.44 2488 C VAL B 289 27.472 −12.161 76.415 1.00 19.12 2489 O VAL B 289 28.429 −12.304 75.657 1.00 22.10 2490 N PRO B 290 26.540 −11.250 76.189 1.00 17.24 2491 CD PRO B 290 25.445 −10.859 77.086 1.00 19.88 2492 CA PRO B 290 26.624 −10.359 75.022 1.00 16.50 2493 CB PRO B 290 25.610 −9.268 75.345 1.00 9.12 2494 CG PRO B 290 24.614 −9.963 76.177 1.00 15.86 2495 C PRO B 290 28.031 −9.776 74.811 1.00 20.18 2496 O PRO B 290 28.652 −9.221 75.734 1.00 19.50 2497 N GLY B 291 28.533 −9.899 73.589 1.00 24.22 2498 CA GLY B 291 29.840 −9.354 73.308 1.00 19.13 2499 C GLY B 291 30.901 −10.410 73.325 1.00 18.84 2500 O GLY B 291 31.825 −10.372 72.525 1.00 25.00 2501 N PHE B 292 30.768 −11.383 74.206 1.00 18.68 2502 CA PHE B 292 31.795 −12.397 74.250 1.00 19.53 2503 CB PHE B 292 31.475 −13.491 75.280 1.00 19.98 2504 CG PHE B 292 32.624 −14.467 75.489 1.00 16.63 2505 CD1 PHE B 292 33.768 −14.058 76.131 1.00 7.41 2506 CD2 PHE B 292 32.565 −15.776 75.005 1.00 19.33 2507 CE1 PHE B 292 34.838 −14.916 76.296 1.00 14.65 2508 CE2 PHE B 292 33.635 −16.651 75.167 1.00 16.74 2509 CZ PHE B 292 34.778 −16.227 75.817 1.00 15.51 2510 C PHE B 292 32.113 −13.051 72.913 1.00 18.23 2511 O PHE B 292 33.291 −13.184 72.576 1.00 19.50 2512 N LEU B 293 31.089 −13.479 72.162 1.00 18.86 2513 CA LEU B 293 31.334 −14.145 70.851 1.00 21.39 2514 CB LEU B 293 30.117 −14.989 70.407 1.00 12.01 2515 CG LEU B 293 29.913 −16.208 71.350 1.00 20.64 2516 CD1 LEU B 293 28.598 −16.911 71.160 1.00 14.53 2517 CD2 LEU B 293 31.060 −17.156 71.128 1.00 13.13 2518 C LEU B 293 31.762 −13.226 69.701 1.00 22.36 2519 O LEU B 293 31.917 −13.661 68.571 1.00 22.27 2520 N GLN B 294 31.965 −11.954 70.000 1.00 24.19 2521 CA GLN B 294 32.425 −11.047 68.985 1.00 27.26 2522 CB GLN B 294 31.917 −9.663 69.284 1.00 30.86 2523 CG GLN B 294 30.408 −9.595 69.201 1.00 42.01 2524 CD GLN B 294 29.894 −8.225 69.558 1.00 49.66 2525 OE1 GLN B 294 28.697 −7.945 69.428 1.00 57.97 2526 NE2 GLN B 294 30.800 −7.353 70.019 1.00 49.92 2527 C GLN B 294 33.955 −11.067 68.945 1.00 27.72 2528 O GLN B 294 34.558 −10.640 67.967 1.00 31.18 2529 N LEU B 295 34.586 −11.568 70.005 1.00 23.34 2530 CA LEU B 295 36.038 −11.637 70.045 1.00 19.78 2531 CB LEU B 295 36.579 −11.666 71.494 1.00 13.80 2532 CG LEU B 295 36.213 −10.437 72.368 1.00 20.64 2533 CD1 LEU B 295 36.591 −10.633 73.831 1.00 16.87 2534 CD2 LEU B 295 36.833 −9.207 71.780 1.00 5.37 2535 C LEU B 295 36.522 −12.861 69.286 1.00 23.15 2536 O LEU B 295 35.770 −13.808 69.013 1.00 27.08 2537 N GLY B 296 37.797 −12.829 68.930 1.00 20.51 2538 CA GLY B 296 38.369 −13.926 68.181 1.00 22.00 2539 C GLY B 296 38.613 −15.083 69.115 1.00 24.52 2540 O GLY B 296 38.856 −14.879 70.294 1.00 26.91 2541 N ARG B 297 38.544 −16.299 68.585 1.00 24.81 2542 CA ARG B 297 38.758 −17.494 69.369 1.00 22.38 2543 CB ARG B 297 38.884 −18.685 68.435 1.00 14.04 2544 CG ARG B 297 37.824 −19.715 68.690 1.00 27.39 2545 CD ARG B 297 36.525 −19.321 68.018 1.00 38.77 2546 NE ARG B 297 35.344 −19.780 68.741 1.00 36.12 2547 CZ ARG B 297 34.228 −20.166 68.148 1.00 41.67 2548 NH1 ARG B 297 34.151 −20.165 66.833 1.00 52.02 2549 NH2 ARG B 297 33.177 −20.513 68.876 1.00 59.39 2550 C ARG B 297 39.983 −17.389 70.315 1.00 22.84 2551 O ARG B 297 39.952 −17.875 71.470 1.00 24.28 2552 N GLU B 298 41.047 −16.752 69.835 1.00 20.17 2553 CA GLU B 298 42.249 −16.567 70.636 1.00 18.15 2554 CB GLU B 298 43.283 −15.806 69.799 1.00 24.82 2555 CG GLU B 298 43.994 −16.663 68.776 1.00 40.30 2556 CD GLU B 298 44.975 −17.637 69.425 1.00 59.47 2557 OE1 GLU B 298 45.919 −17.155 70.101 1.00 73.88 2558 OE2 GLU B 298 44.809 −18.879 69.280 1.00 61.89 2559 C GLU B 298 41.944 −15.827 71.965 1.00 17.48 2560 O GLU B 298 42.270 −16.311 73.054 1.00 15.91 2561 N ASP B 299 41.301 −14.664 71.865 1.00 19.09 2562 CA ASP B 299 40.951 −13.852 73.018 1.00 16.81 2563 CB ASP B 299 40.294 −12.534 72.585 1.00 21.76 2564 CG ASP B 299 41.279 −11.505 72.019 1.00 28.31 2565 OD1 ASP B 299 42.310 −11.253 72.659 1.00 26.29 2566 OD2 ASP B 299 41.011 −10.919 70.930 1.00 42.01 2567 C ASP B 299 39.949 −14.587 73.902 1.00 18.84 2568 O ASP B 299 39.937 −14.347 75.117 1.00 19.02 2569 N GLN B 300 39.107 −15.444 73.293 1.00 14.38 2570 CA GLN B 300 38.072 −16.181 74.015 1.00 14.01 2571 CB GLN B 300 37.160 −16.932 73.057 1.00 12.01 2572 CG GLN B 300 35.794 −16.406 72.996 1.00 19.29 2573 CD GLN B 300 35.069 −16.819 71.734 1.00 35.24 2574 OE1 GLN B 300 35.417 −16.386 70.634 1.00 32.75 2575 NE2 GLN B 300 34.051 −17.660 71.882 1.00 41.69 2576 C GLN B 300 38.695 −17.166 74.927 1.00 14.12 2577 O GLN B 300 38.340 −17.265 76.094 1.00 15.64 2578 N ILE B 301 39.629 −17.918 74.374 1.00 15.96 2579 CA ILE B 301 40.310 −18.921 75.151 1.00 17.05 2580 CB ILE B 301 41.218 −19.750 74.249 1.00 11.32 2581 CG2 ILE B 301 42.140 −20.674 75.096 1.00 5.57 2582 CG1 ILE B 301 40.307 −20.560 73.313 1.00 10.47 2583 CD1 ILE B 301 40.956 −20.976 72.023 1.00 8.58 2584 C ILE B 301 41.073 −18.178 76.204 1.00 16.30 2585 O ILE B 301 40.911 −18.422 77.382 1.00 14.82 2586 N ALA B 302 41.904 −17.247 75.781 1.00 18.66 2587 CA ALA B 302 42.660 −16.459 76.764 1.00 22.11 2588 CB ALA B 302 43.287 −15.206 76.078 1.00 25.04 2589 C ALA B 302 41.803 −16.005 77.985 1.00 20.32 2590 O ALA B 302 42.133 −16.284 79.148 1.00 17.57 2591 N LEU B 303 40.713 −15.295 77.700 1.00 17.46 2592 CA LEU B 303 39.823 −14.803 78.741 1.00 18.81 2593 CB LEU B 303 38.724 −13.935 78.154 1.00 7.57 2594 CG LEU B 303 39.180 −12.585 77.629 1.00 7.97 2595 CD1 LEU B 303 37.974 −11.752 77.334 1.00 15.12 2596 CD2 LEU B 303 40.013 −11.885 78.686 1.00 15.05 2597 C LEU B 303 39.181 −15.880 79.613 1.00 21.50 2598 O LEU B 303 38.929 −15.651 80.792 1.00 23.19 2599 N LEU B 304 38.901 −17.046 79.038 1.00 21.15 2600 CA LEU B 304 38.330 −18.127 79.819 1.00 17.97 2601 CB LEU B 304 37.754 −19.181 78.925 1.00 16.23 2602 CG LEU B 304 36.346 −18.908 78.446 1.00 19.16 2603 CD1 LEU B 304 35.689 −20.216 78.103 1.00 34.29 2604 CD2 LEU B 304 35.582 −18.246 79.514 1.00 25.48 2605 C LEU B 304 39.405 −18.760 80.676 1.00 19.88 2606 O LEU B 304 39.251 −18.916 81.893 1.00 26.25 2607 N LYS B 305 40.499 −19.121 80.029 1.00 14.19 2608 CA LYS B 305 41.629 −19.721 80.708 1.00 17.19 2609 CB LYS B 305 42.858 −19.681 79.767 1.00 19.18 2610 CG LYS B 305 44.134 −20.300 80.336 1.00 22.69 2611 CD LYS B 305 45.188 −20.446 79.256 1.00 31.13 2612 CE LYS B 305 46.538 −20.816 79.794 1.00 42.37 2613 NZ LYS B 305 46.514 −22.177 80.375 1.00 54.77 2614 C LYS B 305 41.959 −19.070 82.070 1.00 15.90 2615 O LYS B 305 42.185 −19.735 83.047 1.00 19.41 2616 N ALA B 306 41.958 −17.760 82.145 1.00 18.52 2617 CA ALA B 306 42.283 −17.111 83.389 1.00 15.98 2618 CB ALA B 306 42.919 −15.776 83.123 1.00 11.91 2619 C ALA B 306 41.117 −16.914 84.322 1.00 17.98 2620 O ALA B 306 41.329 −16.974 85.537 1.00 19.87 2621 N SER B 307 39.905 −16.680 83.792 1.00 17.73 2622 CA SER B 307 38.739 −16.421 84.672 1.00 25.04 2623 CB SER B 307 37.692 −15.593 83.953 1.00 24.67 2624 OG SER B 307 37.262 −16.308 82.812 1.00 33.34 2625 C SER B 307 38.031 −17.634 85.282 1.00 25.83 2626 O SER B 307 37.280 −17.475 86.244 1.00 21.14 2627 N THR B 308 38.290 −18.819 84.710 1.00 25.98 2628 CA THR B 308 37.691 −20.064 85.149 1.00 18.07 2629 CB THR B 308 38.323 −21.269 84.467 1.00 18.27 2630 OG1 THR B 308 38.066 −21.207 83.066 1.00 12.82 2631 CG2 THR B 308 37.743 −22.537 85.004 1.00 15.40 2632 C THR B 308 37.818 −20.251 86.624 1.00 17.49 2633 O THR B 308 36.823 −20.354 87.332 1.00 17.50 2634 N ILE B 309 39.040 −20.259 87.111 1.00 15.34 2635 CA ILE B 309 39.235 −20.467 88.539 1.00 15.21 2636 CB ILE B 309 40.738 −20.482 88.886 1.00 13.09 2637 CG2 ILE B 309 41.349 −19.105 88.725 1.00 20.27 2638 CG1 ILE B 309 40.926 −20.891 90.312 1.00 10.55 2639 CD1 ILE B 309 40.405 −22.213 90.598 1.00 10.98 2640 C ILE B 309 38.543 −19.382 89.377 1.00 19.61 2641 O ILE B 309 37.942 −19.662 90.437 1.00 17.36 2642 N GLU B 310 38.614 −18.142 88.891 1.00 21.83 2643 CA GLU B 310 38.024 −17.041 89.626 1.00 24.74 2644 CB GLU B 310 38.473 −15.713 89.017 1.00 20.41 2645 CG GLU B 310 39.978 −15.592 88.940 1.00 20.71 2646 CD GLU B 310 40.446 −14.170 88.695 1.00 21.40 2647 OE1 GLU B 310 39.575 −13.329 88.420 1.00 21.25 2648 OE2 GLU B 310 41.672 −13.889 88.776 1.00 15.00 2649 C GLU B 310 36.491 −17.137 89.712 1.00 25.09 2650 O GLU B 310 35.862 −16.889 90.772 1.00 27.49 2651 N ILE B 311 35.890 −17.510 88.595 1.00 23.06 2652 CA ILE B 311 34.455 −17.680 88.538 1.00 20.02 2653 CB ILE B 311 33.986 −18.013 87.077 1.00 22.03 2654 CG2 ILE B 311 32.467 −18.325 87.037 1.00 24.02 2655 CG1 ILE B 311 34.283 −16.829 86.154 1.00 13.12 2656 CD1 ILE B 311 33.588 −16.899 84.849 1.00 5.25 2657 C ILE B 311 34.060 −18.830 89.497 1.00 21.66 2658 O ILE B 311 33.125 −18.690 90.303 1.00 19.46 2659 N MET B 312 34.781 −19.954 89.436 1.00 16.11 2660 CA MET B 312 34.459 −21.083 90.324 1.00 13.84 2661 CB MET B 312 35.479 −22.210 90.188 1.00 14.56 2662 CG MET B 312 35.628 −22.790 88.815 1.00 17.34 2663 SD MET B 312 36.931 −24.091 88.709 1.00 16.56 2664 CE MET B 312 35.811 −25.492 88.752 1.00 37.17 2665 C MET B 312 34.445 −20.609 91.771 1.00 14.68 2666 O MET B 312 33.574 −20.995 92.574 1.00 14.77 2667 N LEU B 313 35.423 −19.782 92.112 1.00 12.44 2668 CA LEU B 313 35.449 −19.255 93.465 1.00 15.01 2669 CB LEU B 313 36.771 −18.557 93.683 1.00 11.43 2670 CG LEU B 313 37.924 −19.537 93.730 1.00 13.95 2671 CD1 LEU B 313 39.176 −18.752 93.734 1.00 24.08 2672 CD2 LEU B 313 37.846 −20.418 94.976 1.00 5.25 2673 C LEU B 313 34.248 −18.304 93.730 1.00 11.72 2674 O LEU B 313 33.721 −18.215 94.869 1.00 5.25 2675 N LEU B 314 33.823 −17.588 92.684 1.00 9.59 2676 CA LEU B 314 32.676 −16.721 92.878 1.00 12.83 2677 CB LEU B 314 32.414 −15.842 91.644 1.00 7.74 2678 CG LEU B 314 33.346 −14.608 91.510 1.00 13.68 2679 CD1 LEU B 314 33.382 −14.060 90.117 1.00 5.25 2680 CD2 LEU B 314 32.889 −13.530 92.466 1.00 5.25 2681 C LEU B 314 31.491 −17.625 93.200 1.00 12.72 2682 O LEU B 314 30.765 −17.361 94.157 1.00 10.28 2683 N GLU B 315 31.332 −18.716 92.437 1.00 16.60 2684 CA GLU B 315 30.235 −19.676 92.655 1.00 19.32 2685 CB GLU B 315 30.249 −20.797 91.623 1.00 20.97 2686 CG GLU B 315 29.891 −20.418 90.256 1.00 25.79 2687 CD GLU B 315 28.474 −20.048 90.136 1.00 24.04 2688 OE1 GLU B 315 27.633 −20.671 90.812 1.00 30.51 2689 OE2 GLU B 315 28.192 −19.129 89.350 1.00 35.73 2690 C GLU B 315 30.401 −20.325 94.042 1.00 22.91 2691 O GLU B 315 29.436 −20.433 94.829 1.00 25.74 2692 N THR B 316 31.620 −20.783 94.330 1.00 19.17 2693 CA THR B 316 31.918 −21.380 95.632 1.00 16.62 2694 CB THR B 316 33.393 −21.538 95.830 1.00 17.06 2695 OG1 THR B 316 33.863 −22.615 95.011 1.00 20.32 2696 CG2 THR B 316 33.669 −21.801 97.232 1.00 14.20 2697 C THR B 316 31.418 −20.448 96.704 1.00 13.14 2698 O THR B 316 30.828 −20.897 97.644 1.00 17.68 2699 N ALA B 317 31.663 −19.147 96.552 1.00 12.23 2700 CA ALA B 317 31.184 −18.156 97.505 1.00 10.33 2701 CB ALA B 317 31.714 −16.784 97.158 1.00 5.89 2702 C ALA B 317 29.658 −18.134 97.491 1.00 13.35 2703 O ALA B 317 29.024 −18.231 98.537 1.00 15.23 2704 N ARG B 318 29.063 −18.003 96.310 1.00 14.74 2705 CA ARG B 318 27.610 −17.976 96.210 1.00 14.84 2706 CB ARG B 318 27.193 −17.799 94.741 1.00 14.50 2707 CG ARG B 318 25.694 −18.024 94.503 1.00 14.19 2708 CD ARG B 318 25.184 −17.373 93.220 1.00 25.75 2709 NE ARG B 318 25.755 −17.926 91.994 1.00 23.63 2710 CZ ARG B 318 25.484 −17.446 90.778 1.00 34.61 2711 NH1 ARG B 318 24.653 −16.424 90.636 1.00 34.00 2712 NH2 ARG B 318 26.059 −17.967 89.699 1.00 31.00 2713 C ARG B 318 26.892 −19.202 96.808 1.00 17.70 2714 O ARG B 318 25.785 −19.072 97.320 1.00 18.96 2715 N ARG B 319 27.509 −20.386 96.726 1.00 20.72 2716 CA ARG B 319 26.921 −21.632 97.244 1.00 16.92 2717 CB ARG B 319 27.303 −22.800 96.329 1.00 18.39 2718 CG ARG B 319 26.921 −22.642 94.898 1.00 5.97 2719 CD ARG B 319 25.751 −23.607 94.553 1.00 28.69 2720 NE ARG B 319 25.163 −23.287 93.253 1.00 11.54 2721 CZ ARG B 319 25.913 −22.910 92.240 1.00 24.11 2722 NH1 ARG B 319 27.250 −22.851 92.434 1.00 16.61 2723 NH2 ARG B 319 25.327 −22.539 91.098 1.00 21.88 2724 C ARG B 319 27.390 −21.940 98.677 1.00 13.41 2725 O ARG B 319 27.282 −23.054 99.145 1.00 14.44 2726 N TYR B 320 27.919 −20.938 99.359 1.00 16.42 2727 CA TYR B 320 28.386 −21.074 100.733 1.00 19.36 2728 CB TYR B 320 29.586 −20.170 100.965 1.00 17.23 2729 CG TYR B 320 29.990 −20.112 102.426 1.00 12.95 2730 CD1 TYR B 320 29.587 −19.082 103.223 1.00 9.66 2731 CE1 TYR B 320 29.974 −18.993 104.518 1.00 7.34 2732 CD2 TYR B 320 30.802 −21.073 102.983 1.00 19.08 2733 CE2 TYR B 320 31.200 −21.001 104.292 1.00 14.64 2734 CZ TYR B 320 30.785 −19.946 105.061 1.00 20.88 2735 OH TYR B 320 31.214 −19.801 106.379 1.00 32.48 2736 C TYR B 320 27.318 −20.724 101.766 1.00 22.75 2737 O TYR B 320 26.672 −19.655 101.670 1.00 27.48 2738 N ASN B 321 27.122 −21.591 102.759 1.00 23.31 2739 CA ASN B 321 26.109 −21.283 103.782 1.00 29.74 2740 CB ASN B 321 25.036 −22.398 103.883 1.00 33.20 2741 CG ASN B 321 25.077 −23.161 105.188 1.00 28.54 2742 OD1 ASN B 321 24.968 −22.604 106.274 1.00 21.25 2743 ND2 ASN B 321 25.216 −24.462 105.075 1.00 38.75 2744 C ASN B 321 26.817 −21.077 105.092 1.00 31.37 2745 O ASN B 321 27.676 −21.870 105.472 1.00 29.68 2746 N HIS B 322 26.451 −19.999 105.772 1.00 34.77 2747 CA HIS B 322 27.070 −19.642 107.033 1.00 40.14 2748 CB HIS B 322 26.755 −18.189 107.364 1.00 51.27 2749 CG HIS B 322 27.574 −17.637 108.495 1.00 68.36 2750 CD2 HIS B 322 28.820 −17.098 108.517 1.00 75.91 2751 ND1 HIS B 322 27.127 −17.608 109.800 1.00 75.30 2752 CE1 HIS B 322 28.056 −17.075 110.576 1.00 77.35 2753 NE2 HIS B 322 29.095 −16.757 109.821 1.00 81.24 2754 C HIS B 322 26.741 −20.512 108.234 1.00 41.26 2755 O HIS B 322 27.593 −20.722 109.094 1.00 42.57 2756 N GLU B 323 25.530 −21.040 108.310 1.00 42.04 2757 CA GLU B 323 25.206 −21.849 109.469 1.00 45.58 2758 CB GLU B 323 23.682 −22.076 109.546 1.00 44.87 2759 CG GLU B 323 22.973 −22.133 108.226 1.00 57.51 2760 CD GLU B 323 21.495 −22.487 108.369 1.00 67.14 2761 OE1 GLU B 323 21.166 −23.373 109.195 1.00 63.90 2762 OE2 GLU B 323 20.660 −21.893 107.643 1.00 71.98 2763 C GLU B 323 26.012 −23.162 109.548 1.00 43.21 2764 O GLU B 323 26.608 −23.476 110.581 1.00 44.00 2765 N THR B 324 26.060 −23.905 108.450 1.00 42.19 2766 CA THR B 324 26.793 −25.159 108.442 1.00 40.90 2767 CB THR B 324 26.243 −26.152 107.364 1.00 42.53 2768 OG1 THR B 324 26.829 −25.852 106.089 1.00 41.85 2769 CG2 THR B 324 24.737 −26.050 107.234 1.00 41.53 2770 C THR B 324 28.262 −24.893 108.101 1.00 38.75 2771 O THR B 324 29.147 −25.720 108.378 1.00 36.54 2772 N GLU B 325 28.508 −23.728 107.513 1.00 33.32 2773 CA GLU B 325 29.842 −23.357 107.061 1.00 33.46 2774 CB GLU B 325 30.856 −23.420 108.213 1.00 23.98 2775 CG GLU B 325 31.022 −22.081 108.892 1.00 41.70 2776 CD GLU B 325 31.807 −22.141 110.193 1.00 42.71 2777 OE1 GLU B 325 33.001 −22.528 110.156 1.00 40.97 2778 OE2 GLU B 325 31.216 −21.807 111.251 1.00 38.92 2779 C GLU B 325 30.295 −24.247 105.867 1.00 29.73 2780 O GLU B 325 31.496 −24.326 105.548 1.00 29.60 2781 N CYS B 326 29.329 −24.897 105.210 1.00 19.72 2782 CA CYS B 326 29.630 −25.738 104.068 1.00 17.47 2783 CB CYS B 326 28.948 −27.087 104.197 1.00 17.62 2784 SG CYS B 326 29.778 −28.099 105.458 1.00 19.81 2785 C CYS B 326 29.282 −25.132 102.735 1.00 13.98 2786 O CYS B 326 28.472 −24.224 102.624 1.00 14.46 2787 N ILE B 327 29.934 −25.641 101.713 1.00 13.56 2788 CA ILE B 327 29.722 −25.166 100.374 1.00 14.00 2789 CB ILE B 327 31.105 −24.880 99.722 1.00 21.76 2790 CG2 ILE B 327 30.987 −24.629 98.209 1.00 15.85 2791 CG1 ILE B 327 31.744 −23.685 100.431 1.00 19.00 2792 CD1 ILE B 327 33.200 −23.498 100.053 1.00 30.37 2793 C ILE B 327 28.978 −26.277 99.640 1.00 15.70 2794 O ILE B 327 29.495 −27.397 99.480 1.00 17.00 2795 N THR B 328 27.749 −26.014 99.225 1.00 12.99 2796 CA THR B 328 27.042 −27.061 98.498 1.00 15.42 2797 CB THR B 328 25.597 −27.188 99.065 1.00 17.94 2798 OG1 THR B 328 24.631 −27.122 97.998 1.00 16.43 2799 CG2 THR B 328 25.363 −26.095 100.081 1.00 15.23 2800 C THR B 328 27.064 −26.828 96.951 1.00 14.11 2801 O THR B 328 26.342 −25.970 96.416 1.00 14.69 2802 N PHE B 329 27.913 −27.588 96.257 1.00 17.12 2803 CA PHE B 329 28.068 −27.515 94.785 1.00 24.47 2804 CB PHE B 329 28.948 −28.686 94.274 1.00 19.96 2805 CG PHE B 329 30.309 −28.730 94.908 1.00 11.22 2806 CD1 PHE B 329 30.773 −27.638 95.651 1.00 16.78 2807 CD2 PHE B 329 31.123 −29.850 94.761 1.00 17.63 2808 CE1 PHE B 329 32.019 −27.651 96.241 1.00 12.06 2809 CE2 PHE B 329 32.388 −29.900 95.340 1.00 14.62 2810 CZ PHE B 329 32.834 −28.783 96.089 1.00 25.43 2811 C PHE B 329 26.717 −27.505 94.071 1.00 27.50 2812 O PHE B 329 26.329 −26.543 93.424 1.00 31.32 2813 N LEU B 330 26.005 −28.603 94.162 1.00 29.49 2814 CA LEU B 330 24.678 −28.677 93.591 1.00 32.93 2815 CB LEU B 330 24.586 −29.629 92.414 1.00 20.77 2816 CG LEU B 330 25.611 −30.766 92.428 1.00 19.16 2817 CD1 LEU B 330 25.156 −31.901 91.621 1.00 13.76 2818 CD2 LEU B 330 26.910 −30.266 91.897 1.00 18.33 2819 C LEU B 330 24.084 −29.384 94.724 1.00 41.67 2820 O LEU B 330 24.790 −29.756 95.688 1.00 48.74 2821 N LYS B 331 22.778 −29.531 94.708 1.00 46.64 2822 CA LYS B 331 22.380 −30.323 95.792 1.00 51.51 2823 CB LYS B 331 21.170 −29.901 96.632 1.00 51.06 2824 CG LYS B 331 21.365 −28.780 97.591 1.00 53.95 2825 CD LYS B 331 20.017 −28.140 97.871 1.00 48.73 2826 CE LYS B 331 20.173 −26.727 98.404 1.00 48.40 2827 NZ LYS B 331 20.371 −25.761 97.305 1.00 47.10 2828 C LYS B 331 22.181 −31.688 95.570 1.00 50.52 2829 O LYS B 331 21.849 −32.204 94.478 1.00 46.66 2830 N ASP B 332 22.887 −32.032 96.624 1.00 52.67 2831 CA ASP B 332 23.025 −33.222 97.365 1.00 55.22 2832 CB ASP B 332 22.073 −34.369 96.915 1.00 59.22 2833 CG ASP B 332 20.592 −33.897 96.918 1.00 63.62 2834 OD1 ASP B 332 20.155 −33.161 97.849 1.00 60.93 2835 OD2 ASP B 332 19.873 −34.259 95.952 1.00 61.76 2836 C ASP B 332 24.404 −33.483 97.729 1.00 52.77 2837 O ASP B 332 24.697 −34.166 98.715 1.00 57.76 2838 N PHE B 333 25.166 −32.599 97.109 1.00 45.92 2839 CA PHE B 333 26.596 −32.480 97.146 1.00 42.30 2840 CB PHE B 333 27.042 −32.335 95.715 1.00 39.83 2841 CG PHE B 333 26.642 −33.497 94.836 1.00 39.89 2842 CD1 PHE B 333 27.585 −34.434 94.498 1.00 42.14 2843 CD2 PHE B 333 25.351 −33.645 94.339 1.00 39.58 2844 CE1 PHE B 333 27.271 −35.506 93.681 1.00 34.24 2845 CE2 PHE B 333 25.033 −34.713 93.526 1.00 39.73 2846 CZ PHE B 333 26.006 −35.644 93.199 1.00 37.98 2847 C PHE B 333 27.104 −31.309 97.942 1.00 40.11 2848 O PHE B 333 27.208 −30.199 97.420 1.00 42.42 2849 N THR B 334 27.449 −31.564 99.198 1.00 37.35 2850 CA THR B 334 27.939 −30.488 100.056 1.00 35.15 2851 CB THR B 334 26.935 −30.139 101.149 1.00 27.27 2852 OG1 THR B 334 25.661 −30.006 100.544 1.00 40.46 2853 CG2 THR B 334 27.210 −28.800 101.745 1.00 35.21 2854 C THR B 334 29.258 −30.878 100.676 1.00 33.56 2855 O THR B 334 29.553 −32.065 100.805 1.00 32.24 2856 N TYR B 335 30.067 −29.866 101.011 1.00 30.56 2857 CA TYR B 335 31.384 −30.087 101.593 1.00 23.37 2858 CB TYR B 335 32.419 −30.188 100.488 1.00 17.76 2859 CG TYR B 335 31.948 −31.134 99.385 1.00 22.34 2860 CD1 TYR B 335 32.229 −32.504 99.434 1.00 16.82 2861 CE1 TYR B 335 31.759 −33.364 98.477 1.00 21.70 2862 CD2 TYR B 335 31.168 −30.671 98.338 1.00 14.59 2863 CE2 TYR B 335 30.678 −31.533 97.389 1.00 17.96 2864 CZ TYR B 335 30.975 −32.868 97.452 1.00 20.27 2865 OH TYR B 335 30.488 −33.727 96.499 1.00 12.76 2866 C TYR B 335 31.769 −29.007 102.572 1.00 22.39 2867 O TYR B 335 31.346 −27.848 102.484 1.00 22.73 2868 N SER B 336 32.577 −29.444 103.519 1.00 18.36 2869 CA SER B 336 33.087 −28.641 104.605 1.00 17.31 2870 CB SER B 336 33.167 −29.511 105.826 1.00 14.17 2871 OG SER B 336 34.231 −30.442 105.643 1.00 5.25 2872 C SER B 336 34.511 −28.249 104.242 1.00 19.59 2873 O SER B 336 35.079 −28.790 103.331 1.00 18.34 2874 N LYS B 337 35.107 −27.336 104.988 1.00 24.25 2875 CA LYS B 337 36.472 −26.939 104.683 1.00 30.39 2876 CB LYS B 337 36.974 −25.910 105.704 1.00 24.85 2877 CG LYS B 337 38.128 −25.057 105.208 1.00 24.92 2878 CD LYS B 337 38.965 −24.367 106.323 1.00 10.90 2879 CE LYS B 337 38.155 −23.365 107.092 1.00 12.99 2880 NZ LYS B 337 39.074 −22.574 107.894 1.00 14.94 2881 C LYS B 337 37.295 −28.230 104.806 1.00 34.31 2882 O LYS B 337 38.262 −28.511 104.044 1.00 39.45 2883 N ASP B 338 36.871 −29.039 105.763 1.00 32.24 2884 CA ASP B 338 37.555 −30.281 106.046 1.00 29.77 2885 CB ASP B 338 36.851 −30.970 107.187 1.00 37.61 2886 CG ASP B 338 37.724 −31.967 107.868 1.00 45.54 2887 OD1 ASP B 338 38.827 −31.553 108.301 1.00 45.53 2888 OD2 ASP B 338 37.304 −33.153 107.970 1.00 53.47 2889 C ASP B 338 37.604 −31.197 104.858 1.00 25.03 2890 O ASP B 338 38.665 −31.776 104.560 1.00 14.70 2891 N ASP B 339 36.440 −31.347 104.216 1.00 20.92 2892 CA ASP B 339 36.335 −32.178 103.037 1.00 23.16 2893 CB ASP B 339 34.939 −32.097 102.433 1.00 20.17 2894 CG ASP B 339 33.865 −32.866 103.280 1.00 27.23 2895 OD1 ASP B 339 34.021 −34.070 103.623 1.00 19.08 2896 OD2 ASP B 339 32.822 −32.257 103.597 1.00 19.77 2897 C ASP B 339 37.397 −31.793 102.006 1.00 24.92 2898 O ASP B 339 37.956 −32.655 101.325 1.00 24.48 2899 N PHE B 340 37.721 −30.511 101.906 1.00 26.15 2900 CA PHE B 340 38.754 −30.115 100.952 1.00 26.11 2901 CB PHE B 340 38.901 −28.586 100.891 1.00 29.18 2902 CG PHE B 340 37.815 −27.885 100.114 1.00 28.11 2903 CD1 PHE B 340 38.137 −26.833 99.236 1.00 22.50 2904 CD2 PHE B 340 36.476 −28.254 100.255 1.00 14.50 2905 CE1 PHE B 340 37.122 −26.152 98.496 1.00 9.98 2906 CE2 PHE B 340 35.453 −27.588 99.522 1.00 12.32 2907 CZ PHE B 340 35.779 −26.540 98.642 1.00 14.96 2908 C PHE B 340 40.104 −30.744 101.346 1.00 27.23 2909 O PHE B 340 40.738 −31.386 100.519 1.00 21.29 2910 N HIS B 341 40.532 −30.546 102.601 1.00 29.89 2911 CA HIS B 341 41.798 −31.090 103.086 1.00 29.99 2912 CB HIS B 341 41.871 −31.061 104.616 1.00 40.75 2913 CG HIS B 341 42.227 −29.717 105.203 1.00 52.52 2914 CD2 HIS B 341 43.428 −29.152 105.504 1.00 51.07 2915 ND1 HIS B 341 41.274 −28.795 105.585 1.00 59.86 2916 CE1 HIS B 341 41.866 −27.727 106.094 1.00 55.78 2917 NE2 HIS B 341 43.175 −27.918 106.055 1.00 57.87 2918 C HIS B 341 41.902 −32.513 102.631 1.00 27.80 2919 O HIS B 341 42.897 −32.913 102.032 1.00 34.95 2920 N ARG B 342 40.848 −33.279 102.890 1.00 25.91 2921 CA ARG B 342 40.808 −34.698 102.505 1.00 21.72 2922 CB ARG B 342 39.530 −35.344 103.014 1.00 23.52 2923 CG ARG B 342 39.552 −35.591 104.518 1.00 17.95 2924 CD ARG B 342 38.174 −35.868 105.004 1.00 16.70 2925 NE ARG B 342 38.202 −36.219 106.406 1.00 35.04 2926 CZ ARG B 342 37.208 −35.982 107.246 1.00 44.04 2927 NH1 ARG B 342 36.106 −35.382 106.810 1.00 44.47 2928 NH2 ARG B 342 37.328 −36.359 108.517 1.00 59.88 2929 C ARG B 342 40.943 −34.976 101.036 1.00 17.70 2930 O ARG B 342 41.451 −36.009 100.669 1.00 12.22 2931 N ALA B 343 40.496 −34.037 100.206 1.00 21.91 2932 CA ALA B 343 40.562 −34.182 98.749 1.00 22.78 2933 CB ALA B 343 39.538 −33.254 98.055 1.00 10.94 2934 C ALA B 343 41.955 −33.853 98.261 1.00 26.32 2935 O ALA B 343 42.180 −33.763 97.044 1.00 31.56 2936 N GLY B 344 42.882 −33.674 99.211 1.00 25.61 2937 CA GLY B 344 44.261 −33.350 98.868 1.00 25.49 2938 C GLY B 344 44.617 −31.872 98.760 1.00 23.60 2939 O GLY B 344 45.780 −31.508 98.561 1.00 26.94 2940 N LEU B 345 43.631 −31.002 98.884 1.00 19.91 2941 CA LEU B 345 43.948 −29.597 98.832 1.00 21.14 2942 CB LEU B 345 42.662 −28.777 98.752 1.00 18.78 2943 CG LEU B 345 41.720 −29.293 97.655 1.00 18.00 2944 CD1 LEU B 345 40.533 −28.388 97.525 1.00 16.17 2945 CD2 LEU B 345 42.454 −29.398 96.346 1.00 17.82 2946 C LEU B 345 44.808 −29.150 100.031 1.00 24.55 2947 O LEU B 345 44.765 −29.733 101.102 1.00 24.17 2948 N GLN B 346 45.618 −28.121 99.801 1.00 31.30 2949 CA GLN B 346 46.490 −27.508 100.803 1.00 28.94 2950 CB GLN B 346 47.551 −26.644 100.128 1.00 29.62 2951 CG GLN B 346 48.427 −27.381 99.193 1.00 35.38 2952 CD GLN B 346 49.364 −26.444 98.485 1.00 40.33 2953 OE1 GLN B 346 48.924 −25.417 97.959 1.00 47.15 2954 NE2 GLN B 346 50.664 −26.781 98.460 1.00 37.94 2955 C GLN B 346 45.708 −26.573 101.741 1.00 27.28 2956 O GLN B 346 44.650 −26.030 101.411 1.00 27.98 2957 N VAL B 347 46.287 −26.330 102.900 1.00 24.67 2958 CA VAL B 347 45.646 −25.477 103.846 1.00 18.01 2959 CB VAL B 347 46.257 −25.722 105.278 1.00 10.17 2960 CG1 VAL B 347 47.379 −24.760 105.559 1.00 10.52 2961 CG2 VAL B 347 45.188 −25.644 106.323 1.00 12.51 2962 C VAL B 347 45.834 −24.044 103.346 1.00 17.79 2963 O VAL B 347 45.013 −23.175 103.577 1.00 22.76 2964 N GLU B 348 46.899 −23.796 102.605 1.00 17.73 2965 CA GLU B 348 47.163 −22.436 102.170 1.00 13.53 2966 CB GLU B 348 48.639 −22.295 101.753 1.00 14.31 2967 CG GLU B 348 49.467 −23.583 101.838 1.00 31.23 2968 CD GLU B 348 50.376 −23.631 103.046 1.00 44.88 2969 OE1 GLU B 348 49.869 −23.564 104.198 1.00 51.92 2970 OE2 GLU B 348 51.613 −23.725 102.843 1.00 50.16 2971 C GLU B 348 46.245 −22.001 101.060 1.00 13.72 2972 O GLU B 348 46.186 −20.826 100.716 1.00 15.06 2973 N PHE B 349 45.531 −22.950 100.476 1.00 16.82 2974 CA PHE B 349 44.587 −22.625 99.406 1.00 13.74 2975 CB PHE B 349 44.708 −23.669 98.281 1.00 18.78 2976 CG PHE B 349 43.740 −23.473 97.114 1.00 10.99 2977 CD1 PHE B 349 43.459 −22.220 96.614 1.00 18.13 2978 CD2 PHE B 349 43.132 −24.560 96.507 1.00 13.56 2979 CE1 PHE B 349 42.573 −22.050 95.525 1.00 6.01 2980 CE2 PHE B 349 42.255 −24.397 95.419 1.00 5.27 2981 CZ PHE B 349 41.981 −23.144 94.937 1.00 5.69 2982 C PHE B 349 43.193 −22.668 100.063 1.00 15.65 2983 O PHE B 349 42.428 −21.690 100.012 1.00 13.18 2984 N ILE B 350 42.888 −23.793 100.719 1.00 18.64 2985 CA ILE B 350 41.599 −24.029 101.411 1.00 15.73 2986 CB ILE B 350 41.711 −25.319 102.245 1.00 15.61 2987 CG2 ILE B 350 40.518 −25.557 103.096 1.00 19.07 2988 CG1 ILE B 350 41.814 −26.498 101.316 1.00 17.50 2989 CD1 ILE B 350 42.135 −27.753 102.103 1.00 27.64 2990 C ILE B 350 41.176 −22.844 102.296 1.00 17.73 2991 O ILE B 350 40.153 −22.176 102.039 1.00 17.58 2992 N ASN B 351 41.964 −22.558 103.329 1.00 15.36 2993 CA ASN B 351 41.630 −21.426 104.200 1.00 21.50 2994 CB ASN B 351 42.773 −21.092 105.184 1.00 18.55 2995 CG ASN B 351 43.060 −22.266 106.118 1.00 33.34 2996 OD1 ASN B 351 42.180 −23.130 106.341 1.00 30.31 2997 ND2 ASN B 351 44.276 −22.324 106.657 1.00 32.74 2998 C ASN B 351 41.200 −20.192 103.432 1.00 17.98 2999 O ASN B 351 40.127 −19.675 103.672 1.00 19.95 3000 N PRO B 352 42.023 −19.723 102.498 1.00 17.67 3001 CD PRO B 352 43.393 −20.189 102.230 1.00 16.16 3002 CA PRO B 352 41.709 −18.543 101.689 1.00 17.00 3003 CB PRO B 352 42.870 −18.483 100.713 1.00 11.78 3004 CG PRO B 352 43.981 −18.986 101.503 1.00 13.56 3005 C PRO B 352 40.358 −18.651 100.942 1.00 18.90 3006 O PRO B 352 39.594 −17.663 100.873 1.00 15.40 3007 N ILE B 353 40.022 −19.835 100.415 1.00 15.19 3008 CA ILE B 353 38.747 −19.892 99.693 1.00 16.53 3009 CB ILE B 353 38.596 −21.164 98.749 1.00 13.88 3010 CG2 ILE B 353 39.954 −21.816 98.408 1.00 26.94 3011 CG1 ILE B 353 37.724 −22.179 99.393 1.00 33.16 3012 CD1 ILE B 353 36.288 −21.967 99.061 1.00 45.07 3013 C ILE B 353 37.579 −19.748 100.646 1.00 11.77 3014 O ILE B 353 36.557 −19.178 100.319 1.00 17.06 3015 N PHE B 354 37.728 −20.236 101.856 1.00 13.84 3016 CA PHE B 354 36.629 −20.093 102.813 1.00 16.88 3017 CB PHE B 354 36.720 −21.198 103.879 1.00 14.93 3018 CG PHE B 354 36.075 −22.477 103.456 1.00 16.09 3019 CD1 PHE B 354 36.685 −23.305 102.518 1.00 24.52 3020 CD2 PHE B 354 34.824 −22.815 103.921 1.00 18.19 3021 CE1 PHE B 354 36.057 −24.442 102.041 1.00 12.44 3022 CE2 PHE B 354 34.177 −23.952 103.450 1.00 10.08 3023 CZ PHE B 354 34.797 −24.755 102.515 1.00 20.01 3024 C PHE B 354 36.543 −18.679 103.467 1.00 16.92 3025 O PHE B 354 35.533 −18.254 104.046 1.00 8.38 3026 N GLU B 355 37.604 −17.921 103.338 1.00 20.86 3027 CA GLU B 355 37.561 −16.616 103.904 1.00 24.71 3028 CB GLU B 355 38.979 −16.173 104.263 1.00 26.64 3029 CG GLU B 355 39.198 −15.870 105.748 1.00 45.42 3030 CD GLU B 355 40.442 −16.586 106.324 1.00 62.33 3031 OE1 GLU B 355 40.307 −17.709 106.894 1.00 72.73 3032 OE2 GLU B 355 41.565 −16.039 106.187 1.00 65.39 3033 C GLU B 355 36.916 −15.726 102.813 1.00 25.19 3034 O GLU B 355 36.197 −14.750 103.097 1.00 24.85 3035 N PHE B 356 37.148 −16.085 101.560 1.00 19.78 3036 CA PHE B 356 36.585 −15.306 100.472 1.00 17.79 3037 CB PHE B 356 37.097 −15.856 99.132 1.00 18.91 3038 CG PHE B 356 36.512 −15.196 97.925 1.00 14.83 3039 CD1 PHE B 356 36.826 −13.860 97.610 1.00 5.25 3040 CD2 PHE B 356 35.707 −15.932 97.058 1.00 9.68 3041 CE1 PHE B 356 36.349 −13.276 96.451 1.00 5.25 3042 CE2 PHE B 356 35.217 −15.346 95.869 1.00 12.90 3043 CZ PHE B 356 35.551 −14.009 95.576 1.00 7.76 3044 C PHE B 356 35.063 −15.423 100.525 1.00 17.85 3045 O PHE B 356 34.336 −14.417 100.378 1.00 13.00 3046 N SER B 357 34.600 −16.664 100.715 1.00 17.34 3047 CA SER B 357 33.182 −16.957 100.782 1.00 16.99 3048 CB SER B 357 32.961 −18.441 101.009 1.00 22.49 3049 OG SER B 357 33.091 −19.171 99.819 1.00 31.90 3050 C SER B 357 32.586 −16.187 101.935 1.00 16.72 3051 O SER B 357 31.539 −15.548 101.801 1.00 15.43 3052 N ARG B 358 33.255 −16.250 103.085 1.00 18.90 3053 CA ARG B 358 32.755 −15.521 104.240 1.00 18.40 3054 CB ARG B 358 33.647 −15.774 105.467 1.00 14.72 3055 CG ARG B 358 33.420 −17.131 106.105 1.00 7.82 3056 CD ARG B 358 34.071 −17.220 107.487 1.00 8.08 3057 NE ARG B 358 35.545 −17.239 107.462 1.00 17.36 3058 CZ ARG B 358 36.292 −18.310 107.173 1.00 26.94 3059 NH1 ARG B 358 35.732 −19.490 106.876 1.00 31.94 3060 NH2 ARG B 358 37.612 −18.205 107.178 1.00 20.34 3061 C ARG B 358 32.640 −14.022 103.896 1.00 15.62 3062 O ARG B 358 31.602 −13.371 104.137 1.00 19.53 3063 N ALA B 359 33.686 −13.469 103.308 1.00 12.15 3064 CA ALA B 359 33.619 −12.061 102.903 1.00 18.05 3065 CB ALA B 359 34.972 −11.565 102.396 1.00 8.61 3066 C ALA B 359 32.536 −11.765 101.856 1.00 19.02 3067 O ALA B 359 31.962 −10.688 101.883 1.00 18.91 3068 N MET B 360 32.254 −12.699 100.948 1.00 17.99 3069 CA MET B 360 31.214 −12.460 99.961 1.00 22.61 3070 CB MET B 360 31.225 −13.523 98.842 1.00 26.94 3071 CG MET B 360 32.423 −13.472 97.882 1.00 32.65 3072 SD MET B 360 32.647 −11.916 96.899 1.00 18.14 3073 CE MET B 360 31.021 −11.313 96.962 1.00 24.58 3074 C MET B 360 29.837 −12.462 100.634 1.00 26.84 3075 O MET B 360 28.944 −11.707 100.227 1.00 31.39 3076 N ARG B 361 29.633 −13.334 101.622 1.00 26.66 3077 CA ARG B 361 28.359 −13.361 102.321 1.00 27.45 3078 CB ARG B 361 28.368 −14.465 103.342 1.00 32.86 3079 CG ARG B 361 27.103 −14.454 104.197 1.00 48.02 3080 CD ARG B 361 27.327 −15.124 105.526 1.00 50.09 3081 NE ARG B 361 26.385 −14.640 106.520 1.00 53.80 3082 CZ ARG B 361 25.103 −14.970 106.558 1.00 61.07 3083 NH1 ARG B 361 24.602 −15.792 105.648 1.00 49.75 3084 NH2 ARG B 361 24.336 −14.487 107.529 1.00 70.63 3085 C ARG B 361 28.136 −12.011 103.039 1.00 30.85 3086 O ARG B 361 26.998 −11.534 103.201 1.00 28.80 3087 N ARG B 362 29.241 −11.413 103.479 1.00 33.49 3088 CA ARG B 362 29.244 −10.115 104.142 1.00 34.01 3089 CB ARG B 362 30.661 −9.784 104.607 1.00 41.72 3090 CG ARG B 362 31.017 −10.242 106.011 1.00 51.35 3091 CD ARG B 362 32.398 −9.709 106.379 1.00 58.26 3092 NE ARG B 362 33.420 −10.743 106.288 1.00 53.85 3093 CZ ARG B 362 34.679 −10.504 105.961 1.00 56.47 3094 NH1 ARG B 362 35.054 −9.255 105.687 1.00 46.23 3095 NH2 ARG B 362 35.541 −11.522 105.929 1.00 59.73 3096 C ARG B 362 28.764 −8.970 103.249 1.00 34.69 3097 O ARG B 362 28.657 −7.836 103.722 1.00 40.31 3098 N LEU B 363 28.525 −9.236 101.962 1.00 30.88 3099 CA LEU B 363 28.057 −8.179 101.042 1.00 28.18 3100 CB LEU B 363 28.981 −8.014 99.833 1.00 26.95 3101 CG LEU B 363 30.405 −7.667 100.163 1.00 27.79 3102 CD1 LEU B 363 31.253 −7.675 98.903 1.00 32.32 3103 CD2 LEU B 363 30.410 −6.323 100.820 1.00 30.61 3104 C LEU B 363 26.657 −8.448 100.550 1.00 22.85 3105 O LEU B 363 26.039 −7.540 99.992 1.00 21.59 3106 N GLY B 364 26.209 −9.693 100.747 1.00 17.08 3107 CA GLY B 364 24.877 −10.120 100.391 1.00 16.34 3108 C GLY B 364 24.509 −9.830 98.972 1.00 16.19 3109 O GLY B 364 23.456 −9.193 98.727 1.00 12.85 3110 N LEU B 365 25.367 −10.296 98.057 1.00 13.81 3111 CA LEU B 365 25.139 −10.118 96.630 1.00 13.79 3112 CB LEU B 365 26.407 −10.484 95.853 1.00 14.20 3113 CG LEU B 365 27.688 −9.876 96.405 1.00 21.72 3114 CD1 LEU B 365 28.706 −9.735 95.330 1.00 31.54 3115 CD2 LEU B 365 27.391 −8.524 96.953 1.00 39.02 3116 C LEU B 365 23.974 −10.995 96.179 1.00 13.42 3117 O LEU B 365 23.917 −12.142 96.546 1.00 13.34 3118 N ASP B 366 23.039 −10.443 95.394 1.00 19.07 3119 CA ASP B 366 21.862 −11.184 94.884 1.00 16.89 3120 CB ASP B 366 20.668 −10.270 94.648 1.00 13.26 3121 CG ASP B 366 20.962 −9.161 93.670 1.00 23.83 3122 OD1 ASP B 366 21.482 −9.459 92.574 1.00 26.79 3123 OD2 ASP B 366 20.653 −7.987 93.996 1.00 36.61 3124 C ASP B 366 22.213 −11.842 93.575 1.00 19.58 3125 O ASP B 366 23.296 −11.576 93.006 1.00 13.52 3126 N ASP B 367 21.298 −12.680 93.087 1.00 20.02 3127 CA ASP B 367 21.518 −13.426 91.839 1.00 22.33 3128 CB ASP B 367 20.271 −14.245 91.504 1.00 24.27 3129 CG ASP B 367 19.890 −15.194 92.616 1.00 43.14 3130 OD1 ASP B 367 20.540 −16.280 92.703 1.00 53.43 3131 OD2 ASP B 367 18.958 −14.843 93.413 1.00 48.18 3132 C ASP B 367 21.943 −12.596 90.604 1.00 19.76 3133 O ASP B 367 22.597 −13.127 89.719 1.00 11.62 3134 N ALA B 368 21.581 −11.308 90.564 1.00 19.98 3135 CA ALA B 368 21.918 −10.406 89.458 1.00 19.72 3136 CB ALA B 368 20.915 −9.338 89.372 1.00 15.55 3137 C ALA B 368 23.295 −9.774 89.595 1.00 22.54 3138 O ALA B 368 23.994 −9.511 88.596 1.00 22.54 3139 N GLU B 369 23.677 −9.504 90.840 1.00 23.40 3140 CA GLU B 369 24.980 −8.925 91.113 1.00 20.72 3141 CB GLU B 369 25.057 −8.470 92.564 1.00 17.66 3142 CG GLU B 369 23.891 −7.514 92.884 1.00 25.36 3143 CD GLU B 369 23.962 −6.878 94.263 1.00 29.99 3144 OE1 GLU B 369 24.111 −7.633 95.253 1.00 26.69 3145 OE2 GLU B 369 23.866 −5.627 94.362 1.00 16.79 3146 C GLU B 369 26.028 −9.960 90.769 1.00 18.11 3147 O GLU B 369 27.003 −9.670 90.085 1.00 20.17 3148 N TYR B 370 25.799 −11.195 91.178 1.00 18.30 3149 CA TYR B 370 26.749 −12.237 90.852 1.00 15.68 3150 CB TYR B 370 26.302 −13.623 91.353 1.00 19.37 3151 CG TYR B 370 26.827 −14.016 92.727 1.00 7.23 3152 CD1 TYR B 370 26.032 −13.928 93.846 1.00 17.22 3153 CE1 TYR B 370 26.514 −14.243 95.109 1.00 15.61 3154 CD2 TYR B 370 28.116 −14.429 92.895 1.00 9.51 3155 CE2 TYR B 370 28.614 −14.734 94.142 1.00 15.58 3156 CZ TYR B 370 27.819 −14.637 95.246 1.00 14.19 3157 OH TYR B 370 28.371 −14.858 96.486 1.00 24.16 3158 C TYR B 370 26.898 −12.270 89.358 1.00 12.51 3159 O TYR B 370 27.972 −12.022 88.827 1.00 17.46 3160 N ALA B 371 25.815 −12.556 88.665 1.00 11.93 3161 CA ALA B 371 25.889 −12.626 87.217 1.00 14.57 3162 CB ALA B 371 24.497 −12.590 86.620 1.00 5.25 3163 C ALA B 371 26.755 −11.477 86.681 1.00 17.10 3164 O ALA B 371 27.791 −11.716 85.993 1.00 16.34 3165 N LEU B 372 26.372 −10.242 87.028 1.00 17.56 3166 CA LEU B 372 27.135 −9.070 86.558 1.00 18.82 3167 CB LEU B 372 26.540 −7.775 87.107 1.00 13.33 3168 CG LEU B 372 25.210 −7.389 86.494 1.00 12.05 3169 CD1 LEU B 372 24.794 −6.048 87.024 1.00 15.59 3170 CD2 LEU B 372 25.382 −7.304 84.965 1.00 16.90 3171 C LEU B 372 28.625 −9.147 86.917 1.00 16.85 3172 O LEU B 372 29.492 −8.975 86.048 1.00 13.14 3173 N LEU B 373 28.910 −9.444 88.185 1.00 13.85 3174 CA LEU B 373 30.281 −9.548 88.629 1.00 12.62 3175 CB LEU B 373 30.329 −9.940 90.118 1.00 7.59 3176 CG LEU B 373 31.566 −9.456 90.844 1.00 8.37 3177 CD1 LEU B 373 31.398 −7.985 91.121 1.00 9.21 3178 CD2 LEU B 373 31.715 −10.206 92.083 1.00 5.25 3179 C LEU B 373 31.023 −10.587 87.762 1.00 11.70 3180 O LEU B 373 32.143 −10.350 87.336 1.00 13.99 3181 N ILE B 374 30.400 −11.735 87.504 1.00 12.16 3182 CA ILE B 374 31.028 −12.752 86.677 1.00 9.86 3183 CB ILE B 374 30.151 −14.010 86.561 1.00 5.59 3184 CG2 ILE B 374 30.777 −15.013 85.607 1.00 5.25 3185 CG1 ILE B 374 30.042 −14.676 87.918 1.00 10.39 3186 CD1 ILE B 374 29.306 −16.037 87.893 1.00 7.46 3187 C ILE B 374 31.337 −12.221 85.259 1.00 14.32 3188 O ILE B 374 32.444 −12.492 84.724 1.00 11.00 3189 N ALA B 375 30.387 −11.479 84.658 1.00 13.12 3190 CA ALA B 375 30.627 −10.941 83.334 1.00 13.52 3191 CB ALA B 375 29.407 −10.217 82.820 1.00 20.18 3192 C ALA B 375 31.818 −9.980 83.427 1.00 14.33 3193 O ALA B 375 32.787 −10.096 82.677 1.00 19.14 3194 N ILE B 376 31.753 −9.030 84.351 1.00 14.01 3195 CA ILE B 376 32.851 −8.085 84.524 1.00 11.25 3196 CB ILE B 376 32.680 −7.249 85.834 1.00 8.47 3197 CG2 ILE B 376 33.993 −6.556 86.203 1.00 13.86 3198 CG1 ILE B 376 31.583 −6.193 85.633 1.00 7.99 3199 CD1 ILE B 376 31.150 −5.454 86.914 1.00 12.21 3200 C ILE B 376 34.153 −8.860 84.581 1.00 9.44 3201 O ILE B 376 35.108 −8.589 83.860 1.00 11.32 3202 N ASN B 377 34.183 −9.848 85.452 1.00 12.26 3203 CA ASN B 377 35.359 −10.671 85.620 1.00 11.47 3204 CB ASN B 377 35.061 −11.776 86.624 1.00 9.20 3205 CG ASN B 377 36.219 −12.689 86.832 1.00 7.74 3206 OD1 ASN B 377 36.523 −13.554 86.005 1.00 23.45 3207 ND2 ASN B 377 36.886 −12.512 87.940 1.00 13.06 3208 C ASN B 377 35.831 −11.254 84.299 1.00 12.17 3209 O ASN B 377 36.985 −11.166 84.000 1.00 15.74 3210 N ILE B 378 34.947 −11.869 83.517 1.00 17.76 3211 CA ILE B 378 35.327 −12.466 82.214 1.00 16.66 3212 CB ILE B 378 34.124 −12.997 81.466 1.00 9.28 3213 CG2 ILE B 378 34.549 −13.578 80.132 1.00 13.78 3214 CG1 ILE B 378 33.475 −14.086 82.288 1.00 7.47 3215 CD1 ILE B 378 32.276 −14.711 81.563 1.00 14.99 3216 C ILE B 378 36.021 −11.473 81.284 1.00 16.69 3217 O ILE B 378 37.026 −11.816 80.626 1.00 17.57 3218 N PHE B 379 35.483 −10.256 81.242 1.00 11.33 3219 CA PHE B 379 36.071 −9.198 80.440 1.00 16.27 3220 CB PHE B 379 34.967 −8.240 79.995 1.00 11.04 3221 CG PHE B 379 33.936 −8.871 79.063 1.00 13.52 3222 CD1 PHE B 379 34.322 −9.497 77.873 1.00 11.53 3223 CD2 PHE B 379 32.572 −8.842 79.391 1.00 12.09 3224 CE1 PHE B 379 33.354 −10.109 77.000 1.00 5.76 3225 CE2 PHE B 379 31.627 −9.420 78.570 1.00 11.76 3226 CZ PHE B 379 32.029 −10.073 77.341 1.00 8.68 3227 C PHE B 379 37.258 −8.419 81.088 1.00 14.55 3228 O PHE B 379 37.265 −7.178 81.133 1.00 14.20 3229 N SER B 380 38.258 −9.163 81.564 1.00 16.28 3230 CA SER B 380 39.459 −8.574 82.167 1.00 19.10 3231 CB SER B 380 40.137 −9.553 83.122 1.00 19.33 3232 OG SER B 380 39.358 −9.913 84.218 1.00 15.59 3233 C SER B 380 40.488 −8.236 81.063 1.00 21.09 3234 O SER B 380 41.286 −9.075 80.621 1.00 17.26 3235 N ALA B 381 40.483 −7.002 80.605 1.00 24.34 3236 CA ALA B 381 41.439 −6.620 79.562 1.00 25.10 3237 CB ALA B 381 41.296 −5.095 79.277 1.00 25.42 3238 C ALA B 381 42.922 −6.974 79.827 1.00 18.35 3239 O ALA B 381 43.728 −7.012 78.913 1.00 25.10 3240 N ASP B 382 43.284 −7.252 81.067 1.00 15.56 3241 CA ASP B 382 44.693 −7.524 81.396 1.00 18.77 3242 CB ASP B 382 45.111 −6.726 82.654 1.00 10.75 3243 CG ASP B 382 44.614 −7.355 83.958 1.00 23.74 3244 OD1 ASP B 382 43.539 −7.994 83.980 1.00 24.72 3245 OD2 ASP B 382 45.298 −7.202 84.991 1.00 26.03 3246 C ASP B 382 45.101 −8.982 81.590 1.00 20.40 3247 O ASP B 382 46.159 −9.260 82.165 1.00 13.95 3248 N ARG B 383 44.257 −9.910 81.130 1.00 26.01 3249 CA ARG B 383 44.552 −11.339 81.283 1.00 25.61 3250 CB ARG B 383 43.355 −12.220 80.901 1.00 25.21 3251 CG ARG B 383 42.121 −12.108 81.792 1.00 27.60 3252 CD ARG B 383 42.392 −12.504 83.244 1.00 31.36 3253 NE ARG B 383 41.145 −12.534 84.004 1.00 25.93 3254 CZ ARG B 383 41.066 −12.723 85.314 1.00 23.67 3255 NH1 ARG B 383 42.182 −12.906 86.033 1.00 13.10 3256 NH2 ARG B 383 39.855 −12.713 85.886 1.00 8.01 3257 C ARG B 383 45.736 −11.689 80.405 1.00 22.00 3258 O ARG B 383 46.011 −11.017 79.408 1.00 20.47 3259 N PRO B 384 46.486 −12.725 80.794 1.00 23.24 3260 CD PRO B 384 46.524 −13.377 82.121 1.00 20.49 3261 CA PRO B 384 47.644 −13.110 79.970 1.00 24.77 3262 CB PRO B 384 48.212 −14.336 80.704 1.00 16.49 3263 CG PRO B 384 47.919 −13.981 82.165 1.00 11.88 3264 C PRO B 384 47.252 −13.436 78.521 1.00 28.40 3265 O PRO B 384 46.275 −14.170 78.245 1.00 35.48 3266 N ASN B 385 47.998 −12.840 77.607 1.00 27.81 3267 CA ASN B 385 47.841 −13.074 76.202 1.00 25.50 3268 CB ASN B 385 48.117 −14.551 75.896 1.00 26.56 3269 CG ASN B 385 49.579 −14.914 76.084 1.00 29.73 3270 OD1 ASN B 385 50.078 −15.015 77.200 1.00 25.94 3271 ND2 ASN B 385 50.274 −15.103 74.977 1.00 42.58 3272 C ASN B 385 46.559 −12.664 75.558 1.00 23.58 3273 O ASN B 385 45.944 −13.463 74.901 1.00 30.94 3274 N VAL B 386 46.162 −11.418 75.726 1.00 22.19 3275 CA VAL B 386 44.952 −10.898 75.103 1.00 20.30 3276 CB VAL B 386 44.150 −10.087 76.141 1.00 20.63 3277 CG1 VAL B 386 42.930 −9.437 75.494 1.00 11.24 3278 CG2 VAL B 386 43.749 −11.017 77.277 1.00 13.39 3279 C VAL B 386 45.393 −10.003 73.923 1.00 24.43 3280 O VAL B 386 46.189 −9.046 74.085 1.00 26.09 3281 N GLN B 387 44.883 −10.303 72.732 1.00 26.72 3282 CA GLN B 387 45.245 −9.536 71.536 1.00 24.67 3283 CB GLN B 387 45.170 −10.437 70.315 1.00 33.85 3284 CG GLN B 387 46.258 −11.505 70.260 1.00 48.03 3285 CD GLN B 387 46.156 −12.422 69.054 1.00 57.45 3286 OE1 GLN B 387 46.907 −13.398 68.963 1.00 62.38 3287 NE2 GLN B 387 45.233 −12.118 68.119 1.00 59.65 3288 C GLN B 387 44.414 −8.274 71.316 1.00 20.65 3289 O GLN B 387 44.804 −7.346 70.616 1.00 20.76 3290 N GLU B 388 43.260 −8.212 71.930 1.00 17.86 3291 CA GLU B 388 42.499 −7.013 71.754 1.00 16.12 3292 CB GLU B 388 41.348 −7.271 70.804 1.00 14.57 3293 CG GLU B 388 41.835 −7.575 69.398 1.00 5.36 3294 CD GLU B 388 40.693 −7.841 68.436 1.00 12.71 3295 OE1 GLU B 388 40.072 −8.916 68.529 1.00 29.33 3296 OE2 GLU B 388 40.377 −6.984 67.594 1.00 32.32 3297 C GLU B 388 42.013 −6.445 73.076 1.00 11.41 3298 O GLU B 388 40.808 −6.341 73.320 1.00 13.14 3299 N PRO B 389 42.958 −6.055 73.938 1.00 6.71 3300 CD PRO B 389 44.404 −6.004 73.676 1.00 8.43 3301 CA PRO B 389 42.642 −5.481 75.241 1.00 14.43 3302 CB PRO B 389 44.008 −5.126 75.798 1.00 10.21 3303 CG PRO B 389 44.809 −4.909 74.567 1.00 16.14 3304 C PRO B 389 41.707 −4.273 75.120 1.00 22.57 3305 O PRO B 389 40.637 −4.222 75.761 1.00 27.08 3306 N GLY B 390 42.089 −3.298 74.299 1.00 25.43 3307 CA GLY B 390 41.218 −2.146 74.161 1.00 25.69 3308 C GLY B 390 39.768 −2.583 73.961 1.00 24.27 3309 O GLY B 390 38.809 −2.072 74.561 1.00 27.74 3310 N ARG B 391 39.619 −3.569 73.099 1.00 21.41 3311 CA ARG B 391 38.315 −4.089 72.785 1.00 18.95 3312 CB ARG B 391 38.449 −5.049 71.614 1.00 13.78 3313 CG ARG B 391 37.148 −5.406 71.026 1.00 23.30 3314 CD ARG B 391 37.301 −5.840 69.585 1.00 18.87 3315 NE ARG B 391 36.124 −6.604 69.192 1.00 14.58 3316 CZ ARG B 391 36.188 −7.622 68.359 1.00 28.26 3317 NH1 ARG B 391 37.376 −7.966 67.850 1.00 32.20 3318 NH2 ARG B 391 35.077 −8.280 68.049 1.00 40.77 3319 C ARG B 391 37.680 −4.759 74.004 1.00 19.06 3320 O ARG B 391 36.495 −4.530 74.321 1.00 19.44 3321 N VAL B 392 38.455 −5.589 74.697 1.00 16.37 3322 CA VAL B 392 37.925 −6.241 75.892 1.00 20.01 3323 CB VAL B 392 38.947 −7.292 76.450 1.00 23.55 3324 CG1 VAL B 392 38.544 −7.800 77.854 1.00 25.16 3325 CG2 VAL B 392 38.975 −8.485 75.493 1.00 22.93 3326 C VAL B 392 37.569 −5.165 76.960 1.00 19.85 3327 O VAL B 392 36.435 −5.106 77.479 1.00 17.66 3328 N GLU B 393 38.510 −4.280 77.260 1.00 19.42 3329 CA GLU B 393 38.203 −3.262 78.237 1.00 21.86 3330 CB GLU B 393 39.319 −2.215 78.329 1.00 21.31 3331 CG GLU B 393 39.323 −1.489 79.696 1.00 15.00 3332 CD GLU B 393 40.435 −0.488 79.825 1.00 18.00 3333 OE1 GLU B 393 41.492 −0.681 79.209 1.00 36.45 3334 OE2 GLU B 393 40.274 0.510 80.541 1.00 26.03 3335 C GLU B 393 36.870 −2.578 77.920 1.00 22.57 3336 O GLU B 393 36.132 −2.213 78.819 1.00 25.44 3337 N ALA B 394 36.531 −2.424 76.651 1.00 19.40 3338 CA ALA B 394 35.288 −1.766 76.340 1.00 14.16 3339 CB ALA B 394 35.291 −1.385 74.928 1.00 8.52 3340 C ALA B 394 34.094 −2.661 76.638 1.00 17.63 3341 O ALA B 394 33.086 −2.197 77.154 1.00 17.76 3342 N LEU B 395 34.186 −3.945 76.297 1.00 20.44 3343 CA LEU B 395 33.070 −4.870 76.557 1.00 26.34 3344 CB LEU B 395 33.430 −6.306 76.095 1.00 28.81 3345 CG LEU B 395 33.585 −6.556 74.589 1.00 30.31 3346 CD1 LEU B 395 34.129 −7.967 74.323 1.00 19.04 3347 CD2 LEU B 395 32.248 −6.358 73.917 1.00 18.75 3348 C LEU B 395 32.668 −4.890 78.039 1.00 24.18 3349 O LEU B 395 31.505 −4.972 78.399 1.00 24.80 3350 N GLN B 396 33.660 −4.785 78.898 1.00 22.89 3351 CA GLN B 396 33.409 −4.813 80.316 1.00 23.73 3352 CB GLN B 396 34.740 −5.018 81.060 1.00 18.79 3353 CG GLN B 396 34.581 −5.032 82.527 1.00 26.79 3354 CD GLN B 396 35.865 −5.097 83.232 1.00 27.74 3355 OE1 GLN B 396 36.681 −4.191 83.117 1.00 35.13 3356 NE2 GLN B 396 36.078 −6.174 83.979 1.00 35.02 3357 C GLN B 396 32.671 −3.592 80.863 1.00 23.41 3358 O GLN B 396 31.845 −3.714 81.759 1.00 25.74 3359 N GLN B 397 32.967 −2.413 80.341 1.00 20.51 3360 CA GLN B 397 32.300 −1.202 80.833 1.00 21.67 3361 CB GLN B 397 32.679 −0.005 79.956 1.00 14.93 3362 CG GLN B 397 34.175 0.084 79.732 1.00 33.91 3363 CD GLN B 397 34.957 0.475 80.982 1.00 34.76 3364 OE1 GLN B 397 34.782 1.594 81.504 1.00 41.56 3365 NE2 GLN B 397 35.832 −0.434 81.463 1.00 24.98 3366 C GLN B 397 30.748 −1.288 80.956 1.00 18.34 3367 O GLN B 397 30.154 −1.031 82.029 1.00 15.53 3368 N PRO B 398 30.082 −1.701 79.879 1.00 17.23 3369 CD PRO B 398 30.564 −2.367 78.652 1.00 12.02 3370 CA PRO B 398 28.624 −1.757 79.990 1.00 13.09 3371 CB PRO B 398 28.203 −2.431 78.688 1.00 13.76 3372 CG PRO B 398 29.363 −2.218 77.750 1.00 22.69 3373 C PRO B 398 28.185 −2.525 81.223 1.00 13.98 3374 O PRO B 398 27.182 −2.197 81.859 1.00 17.80 3375 N TYR B 399 28.933 −3.574 81.556 1.00 18.65 3376 CA TYR B 399 28.615 −4.414 82.725 1.00 19.43 3377 CB TYR B 399 29.343 −5.754 82.666 1.00 11.20 3378 CG TYR B 399 28.852 −6.615 81.555 1.00 15.79 3379 CD1 TYR B 399 27.613 −7.241 81.641 1.00 12.49 3380 CE1 TYR B 399 27.121 −7.990 80.583 1.00 6.49 3381 CD2 TYR B 399 29.603 −6.760 80.380 1.00 20.08 3382 CE2 TYR B 399 29.137 −7.490 79.322 1.00 7.84 3383 CZ TYR B 399 27.882 −8.114 79.419 1.00 19.70 3384 OH TYR B 399 27.414 −8.862 78.341 1.00 22.13 3385 C TYR B 399 28.980 −3.709 84.017 1.00 18.81 3386 O TYR B 399 28.216 −3.749 84.967 1.00 20.59 3387 N VAL B 400 30.131 −3.049 84.069 1.00 16.23 3388 CA VAL B 400 30.460 −2.334 85.297 1.00 19.14 3389 CB VAL B 400 31.853 −1.643 85.227 1.00 18.68 3390 CG1 VAL B 400 31.994 −0.551 86.289 1.00 5.30 3391 CG2 VAL B 400 32.919 −2.691 85.449 1.00 19.53 3392 C VAL B 400 29.384 −1.288 85.544 1.00 17.89 3393 O VAL B 400 28.964 −1.110 86.664 1.00 23.07 3394 N GLU B 401 28.911 −0.623 84.495 1.00 15.04 3395 CA GLU B 401 27.886 0.398 84.662 1.00 11.15 3396 CB GLU B 401 27.698 1.140 83.360 1.00 7.42 3397 CG GLU B 401 26.608 2.123 83.364 1.00 20.38 3398 CD GLU B 401 26.757 3.074 82.228 1.00 37.37 3399 OE1 GLU B 401 26.867 2.620 81.057 1.00 39.44 3400 OE2 GLU B 401 26.780 4.282 82.518 1.00 39.71 3401 C GLU B 401 26.557 −0.211 85.119 1.00 13.41 3402 O GLU B 401 25.847 0.386 85.938 1.00 12.31 3403 N ALA B 402 26.225 −1.404 84.623 1.00 11.22 3404 CA ALA B 402 24.965 −2.000 85.000 1.00 12.10 3405 CB ALA B 402 24.760 −3.240 84.180 1.00 15.56 3406 C ALA B 402 25.021 −2.304 86.519 1.00 16.14 3407 O ALA B 402 24.032 −2.230 87.233 1.00 16.28 3408 N LEU B 403 26.211 −2.608 87.018 1.00 14.33 3409 CA LEU B 403 26.364 −2.917 88.424 1.00 12.70 3410 CB LEU B 403 27.694 −3.571 88.660 1.00 14.10 3411 CG LEU B 403 27.950 −4.153 90.036 1.00 5.25 3412 CD1 LEU B 403 27.039 −5.370 90.321 1.00 5.25 3413 CD2 LEU B 403 29.407 −4.531 90.070 1.00 13.26 3414 C LEU B 403 26.279 −1.670 89.270 1.00 16.33 3415 O LEU B 403 25.606 −1.654 90.309 1.00 20.44 3416 N LEU B 404 26.979 −0.630 88.825 1.00 15.15 3417 CA LEU B 404 26.984 0.646 89.500 1.00 18.81 3418 CB LEU B 404 27.784 1.664 88.701 1.00 9.81 3419 CG LEU B 404 27.772 3.017 89.442 1.00 19.99 3420 CD1 LEU B 404 28.565 2.881 90.769 1.00 21.31 3421 CD2 LEU B 404 28.367 4.094 88.591 1.00 17.42 3422 C LEU B 404 25.567 1.200 89.713 1.00 25.26 3423 O LEU B 404 25.214 1.654 90.819 1.00 27.46 3424 N SER B 405 24.770 1.173 88.645 1.00 28.43 3425 CA SER B 405 23.413 1.681 88.708 1.00 30.86 3426 CB SER B 405 22.834 1.806 87.291 1.00 27.87 3427 OG SER B 405 21.426 1.931 87.341 1.00 49.84 3428 C SER B 405 22.572 0.760 89.589 1.00 28.69 3429 O SER B 405 21.738 1.217 90.362 1.00 34.53 3430 N TYR B 406 22.827 −0.536 89.498 1.00 25.87 3431 CA TYR B 406 22.091 −1.514 90.290 1.00 23.94 3432 CB TYR B 406 22.499 −2.918 89.855 1.00 16.25 3433 CG TYR B 406 21.671 −3.995 90.459 1.00 22.54 3434 CD1 TYR B 406 20.454 −4.365 89.886 1.00 24.85 3435 CE1 TYR B 406 19.646 −5.363 90.474 1.00 24.09 3436 CD2 TYR B 406 22.082 −4.640 91.638 1.00 27.13 3437 CE2 TYR B 406 21.291 −5.633 92.237 1.00 26.94 3438 CZ TYR B 406 20.065 −5.997 91.643 1.00 30.69 3439 OH TYR B 406 19.290 −7.027 92.192 1.00 26.76 3440 C TYR B 406 22.328 −1.357 91.802 1.00 22.98 3441 O TYR B 406 21.387 −1.179 92.575 1.00 22.41 3442 N THR B 407 23.588 −1.408 92.221 1.00 21.64 3443 CA THR B 407 23.910 −1.304 93.641 1.00 22.30 3444 CB THR B 407 25.424 −1.403 93.879 1.00 18.93 3445 OG1 THR B 407 26.077 −0.330 93.181 1.00 20.67 3446 CG2 THR B 407 25.967 −2.755 93.419 1.00 10.74 3447 C THR B 407 23.441 0.027 94.224 1.00 27.40 3448 O THR B 407 23.142 0.125 95.438 1.00 28.52 3449 N ARG B 408 23.366 1.043 93.359 1.00 25.32 3450 CA ARG B 408 22.941 2.364 93.778 1.00 22.43 3451 CB ARG B 408 23.170 3.363 92.651 1.00 18.62 3452 CG ARG B 408 23.166 4.801 93.095 1.00 31.32 3453 CD ARG B 408 24.367 5.146 93.954 1.00 39.94 3454 NE ARG B 408 24.314 6.530 94.424 1.00 62.46 3455 CZ ARG B 408 24.457 7.599 93.640 1.00 70.70 3456 NH1 ARG B 408 24.671 7.436 92.342 1.00 71.99 3457 NH2 ARG B 408 24.363 8.830 94.146 1.00 68.86 3458 C ARG B 408 21.463 2.331 94.153 1.00 25.92 3459 O ARG B 408 21.051 2.960 95.132 1.00 29.04 3460 N ILE B 409 20.671 1.594 93.380 1.00 23.14 3461 CA ILE B 409 19.245 1.477 93.624 1.00 24.07 3462 CB ILE B 409 18.549 0.982 92.334 1.00 31.63 3463 CG2 ILE B 409 17.158 0.415 92.611 1.00 31.53 3464 CG1 ILE B 409 18.472 2.131 91.336 1.00 27.41 3465 CD1 ILE B 409 18.056 1.651 89.934 1.00 38.63 3466 C ILE B 409 18.958 0.517 94.781 1.00 29.16 3467 O ILE B 409 17.977 0.679 95.503 1.00 30.54 3468 N LYS B 410 19.820 −0.481 94.951 1.00 30.14 3469 CA LYS B 410 19.672 −1.457 96.019 1.00 29.72 3470 CB LYS B 410 20.548 −2.682 95.741 1.00 28.57 3471 CG LYS B 410 20.378 −3.815 96.754 1.00 34.90 3472 CD LYS B 410 21.126 −5.069 96.330 1.00 34.66 3473 CE LYS B 410 20.786 −6.234 97.205 1.00 22.65 3474 NZ LYS B 410 21.487 −7.471 96.748 1.00 27.10 3475 C LYS B 410 20.048 −0.861 97.389 1.00 27.38 3476 O LYS B 410 19.389 −1.134 98.380 1.00 28.37 3477 N ARG B 411 21.101 −0.060 97.467 1.00 23.84 3478 CA ARG B 411 21.446 0.510 98.773 1.00 24.63 3479 CB ARG B 411 22.529 −0.333 99.478 1.00 26.88 3480 CG ARG B 411 22.214 −1.822 99.449 1.00 31.02 3481 CD ARG B 411 22.225 −2.418 100.835 1.00 40.94 3482 NE ARG B 411 23.438 −3.184 101.133 1.00 44.64 3483 CZ ARG B 411 23.475 −4.259 101.923 1.00 39.45 3484 NH1 ARG B 411 22.363 −4.700 102.486 1.00 49.81 3485 NH2 ARG B 411 24.625 −4.880 102.173 1.00 37.84 3486 C ARG B 411 21.894 1.942 98.541 1.00 20.38 3487 O ARG B 411 23.078 2.252 98.482 1.00 26.11 3488 N PRO B 412 20.918 2.841 98.398 1.00 17.18 3489 CD PRO B 412 19.491 2.471 98.413 1.00 10.00 3490 CA PRO B 412 21.106 4.270 98.143 1.00 11.86 3491 CB PRO B 412 19.703 4.801 98.122 1.00 5.25 3492 CG PRO B 412 18.885 3.585 97.700 1.00 6.95 3493 C PRO B 412 21.933 4.941 99.151 1.00 17.42 3494 O PRO B 412 22.670 5.826 98.814 1.00 15.03 3495 N GLN B 413 21.808 4.499 100.400 1.00 27.59 3496 CA GLN B 413 22.542 5.104 101.502 1.00 28.72 3497 CB GLN B 413 21.660 5.093 102.749 1.00 40.02 3498 CG GLN B 413 20.436 6.039 102.688 1.00 58.84 3499 CD GLN B 413 19.102 5.279 102.647 1.00 73.73 3500 OE1 GLN B 413 18.725 4.708 101.606 1.00 77.93 3501 NE2 GLN B 413 18.398 5.240 103.789 1.00 69.98 3502 C GLN B 413 23.896 4.451 101.802 1.00 29.82 3503 O GLN B 413 24.511 4.711 102.836 1.00 37.66 3504 N ASP B 414 24.365 3.594 100.905 1.00 26.65 3505 CA ASP B 414 25.645 2.928 101.086 1.00 19.28 3506 CB ASP B 414 25.455 1.499 101.596 1.00 17.43 3507 CG ASP B 414 26.779 0.815 101.943 1.00 18.73 3508 OD1 ASP B 414 27.805 1.519 102.103 1.00 26.26 3509 OD2 ASP B 414 26.785 −0.421 102.075 1.00 6.65 3510 C ASP B 414 26.393 2.906 99.763 1.00 17.97 3511 O ASP B 414 26.588 1.853 99.171 1.00 13.81 3512 N GLN B 415 26.831 4.079 99.324 1.00 18.40 3513 CA GLN B 415 27.526 4.162 98.079 1.00 23.60 3514 CB GLN B 415 27.506 5.585 97.547 1.00 30.14 3515 CG GLN B 415 28.044 6.586 98.515 1.00 47.25 3516 CD GLN B 415 28.254 7.923 97.837 1.00 59.35 3517 OE1 GLN B 415 27.408 8.350 97.021 1.00 57.51 3518 NE2 GLN B 415 29.378 8.599 98.160 1.00 51.01 3519 C GLN B 415 28.941 3.629 98.135 1.00 22.02 3520 O GLN B 415 29.747 3.860 97.217 1.00 23.65 3521 N LEU B 416 29.265 2.914 99.200 1.00 19.34 3522 CA LEU B 416 30.599 2.325 99.251 1.00 20.84 3523 CB LEU B 416 31.280 2.641 100.572 1.00 19.15 3524 CG LEU B 416 31.886 4.041 100.799 1.00 25.91 3525 CD1 LEU B 416 33.230 3.855 101.446 1.00 24.35 3526 CD2 LEU B 416 32.101 4.795 99.502 1.00 24.30 3527 C LEU B 416 30.525 0.795 99.020 1.00 21.13 3528 O LEU B 416 31.530 0.097 98.900 1.00 17.19 3529 N ARG B 417 29.304 0.284 98.930 1.00 24.16 3530 CA ARG B 417 29.069 −1.136 98.685 1.00 21.61 3531 CB ARG B 417 27.565 −1.406 98.680 1.00 29.84 3532 CG ARG B 417 27.165 −2.819 98.393 1.00 16.14 3533 CD ARG B 417 25.781 −3.094 98.956 1.00 17.27 3534 NE ARG B 417 25.517 −4.520 98.917 1.00 19.36 3535 CZ ARG B 417 24.965 −5.158 97.897 1.00 21.88 3536 NH1 ARG B 417 24.567 −4.531 96.799 1.00 24.73 3537 NH2 ARG B 417 24.871 −6.461 97.962 1.00 26.24 3538 C ARG B 417 29.639 −1.467 97.316 1.00 22.39 3539 O ARG B 417 30.498 −2.350 97.178 1.00 19.83 3540 N PHE B 418 29.171 −0.757 96.288 1.00 21.46 3541 CA PHE B 418 29.688 −1.037 94.946 1.00 19.87 3542 CB PHE B 418 29.267 0.028 93.977 1.00 13.06 3543 CG PHE B 418 29.834 −0.152 92.643 1.00 17.77 3544 CD1 PHE B 418 29.412 −1.212 91.841 1.00 27.33 3545 CD2 PHE B 418 30.830 0.700 92.186 1.00 19.47 3546 CE1 PHE B 418 29.986 −1.432 90.593 1.00 22.32 3547 CE2 PHE B 418 31.420 0.488 90.927 1.00 19.06 3548 CZ PHE B 418 30.997 −0.571 90.144 1.00 27.55 3549 C PHE B 418 31.220 −1.189 94.909 1.00 18.37 3550 O PHE B 418 31.737 −2.168 94.371 1.00 20.12 3551 N PRO B 419 31.958 −0.242 95.505 1.00 14.48 3552 CD PRO B 419 31.567 1.103 95.939 1.00 12.36 3553 CA PRO B 419 33.410 −0.359 95.494 1.00 14.31 3554 CB PRO B 419 33.863 0.945 96.141 1.00 15.64 3555 CG PRO B 419 32.884 1.896 95.745 1.00 5.25 3556 C PRO B 419 33.894 −1.589 96.264 1.00 18.29 3557 O PRO B 419 34.961 −2.131 95.950 1.00 22.41 3558 N ARG B 420 33.131 −2.039 97.262 1.00 17.55 3559 CA ARG B 420 33.563 −3.218 98.030 1.00 18.76 3560 CB ARG B 420 32.657 −3.515 99.228 1.00 16.09 3561 CG ARG B 420 32.818 −2.592 100.389 1.00 23.27 3562 CD ARG B 420 32.034 −3.061 101.593 1.00 31.13 3563 NE ARG B 420 32.051 −2.010 102.608 1.00 53.34 3564 CZ ARG B 420 31.211 −0.972 102.659 1.00 53.62 3565 NH1 ARG B 420 30.249 −0.838 101.764 1.00 45.38 3566 NH2 ARG B 420 31.366 −0.038 103.594 1.00 56.87 3567 C ARG B 420 33.516 −4.405 97.092 1.00 23.08 3568 O ARG B 420 34.392 −5.272 97.113 1.00 25.02 3569 N MET B 421 32.473 −4.471 96.271 1.00 26.24 3570 CA MET B 421 32.392 −5.571 95.320 1.00 26.72 3571 CB MET B 421 31.156 −5.438 94.462 1.00 26.46 3572 CG MET B 421 29.952 −5.847 95.217 1.00 24.52 3573 SD MET B 421 28.542 −5.881 94.219 1.00 22.16 3574 CE MET B 421 27.317 −5.174 95.426 1.00 22.65 3575 C MET B 421 33.620 −5.604 94.438 1.00 26.26 3576 O MET B 421 34.280 −6.652 94.375 1.00 31.69 3577 N LEU B 422 33.927 −4.465 93.791 1.00 20.52 3578 CA LEU B 422 35.067 −4.356 92.919 1.00 15.96 3579 CB LEU B 422 35.222 −2.931 92.432 1.00 23.55 3580 CG LEU B 422 34.273 −2.525 91.276 1.00 25.39 3581 CD1 LEU B 422 34.433 −1.038 90.897 1.00 23.98 3582 CD2 LEU B 422 34.584 −3.354 90.115 1.00 26.78 3583 C LEU B 422 36.295 −4.815 93.652 1.00 17.24 3584 O LEU B 422 37.150 −5.462 93.075 1.00 15.66 3585 N MET B 423 36.380 −4.521 94.940 1.00 16.96 3586 CA MET B 423 37.537 −4.971 95.701 1.00 18.89 3587 CB MET B 423 37.480 −4.349 97.097 1.00 21.05 3588 CG MET B 423 38.772 −3.653 97.532 1.00 37.96 3589 SD MET B 423 39.133 −2.155 96.569 1.00 48.80 3590 CE MET B 423 37.726 −1.154 97.116 1.00 55.61 3591 C MET B 423 37.628 −6.540 95.775 1.00 19.54 3592 O MET B 423 38.704 −7.109 96.010 1.00 22.90 3593 N LYS B 424 36.511 −7.242 95.562 1.00 19.78 3594 CA LYS B 424 36.522 −8.709 95.587 1.00 18.28 3595 CB LYS B 424 35.102 −9.217 95.740 1.00 14.35 3596 CG LYS B 424 34.494 −8.824 97.077 1.00 19.78 3597 CD LYS B 424 35.192 −9.579 98.220 1.00 16.47 3598 CE LYS B 424 34.653 −9.192 99.592 1.00 26.47 3599 NZ LYS B 424 35.607 −8.267 100.347 1.00 29.05 3600 C LYS B 424 37.192 −9.278 94.314 1.00 19.45 3601 O LYS B 424 37.642 −10.432 94.275 1.00 14.12 3602 N LEU B 425 37.257 −8.465 93.261 1.00 20.50 3603 CA LEU B 425 37.945 −8.906 92.057 1.00 17.30 3604 CB LEU B 425 37.693 −7.970 90.891 1.00 10.42 3605 CG LEU B 425 36.256 −7.932 90.363 1.00 22.59 3606 CD1 LEU B 425 36.129 −6.841 89.275 1.00 12.90 3607 CD2 LEU B 425 35.887 −9.270 89.785 1.00 12.37 3608 C LEU B 425 39.429 −8.884 92.424 1.00 15.79 3609 O LEU B 425 40.200 −9.738 91.989 1.00 21.26 3610 N VAL B 426 39.830 −7.929 93.248 1.00 10.39 3611 CA VAL B 426 41.229 −7.853 93.642 1.00 15.67 3612 CB VAL B 426 41.456 −6.711 94.680 1.00 15.21 3613 CG1 VAL B 426 42.861 −6.798 95.251 1.00 6.06 3614 CG2 VAL B 426 41.235 −5.329 94.031 1.00 12.87 3615 C VAL B 426 41.655 −9.213 94.264 1.00 19.24 3616 O VAL B 426 42.706 −9.820 93.930 1.00 19.27 3617 N SER B 427 40.823 −9.702 95.166 1.00 16.66 3618 CA SER B 427 41.103 −10.963 95.825 1.00 17.77 3619 CB SER B 427 40.050 −11.220 96.864 1.00 15.50 3620 OG SER B 427 39.982 −10.130 97.760 1.00 28.60 3621 C SER B 427 41.148 −12.136 94.875 1.00 21.81 3622 O SER B 427 42.012 −12.995 95.008 1.00 25.86 3623 N LEU B 428 40.220 −12.194 93.926 1.00 19.86 3624 CA LEU B 428 40.257 −13.302 92.987 1.00 18.69 3625 CB LEU B 428 39.150 −13.169 91.930 1.00 21.55 3626 CG LEU B 428 37.756 −13.238 92.528 1.00 14.78 3627 CD1 LEU B 428 36.745 −12.976 91.449 1.00 13.20 3628 CD2 LEU B 428 37.579 −14.607 93.183 1.00 5.25 3629 C LEU B 428 41.621 −13.379 92.300 1.00 16.34 3630 O LEU B 428 42.053 −14.454 91.922 1.00 20.34 3631 N ARG B 429 42.292 −12.250 92.118 1.00 13.61 3632 CA ARG B 429 43.575 −12.319 91.481 1.00 14.98 3633 CB ARG B 429 44.131 −10.936 91.220 1.00 22.87 3634 CG ARG B 429 43.547 −10.244 90.010 1.00 17.78 3635 CD ARG B 429 43.500 −11.204 88.851 1.00 26.45 3636 NE ARG B 429 42.578 −10.691 87.848 1.00 25.15 3637 CZ ARG B 429 42.874 −9.711 87.008 1.00 21.97 3638 NH1 ARG B 429 44.065 −9.153 87.042 1.00 19.57 3639 NH2 ARG B 429 41.969 −9.278 86.147 1.00 35.54 3640 C ARG B 429 44.481 −13.081 92.421 1.00 16.08 3641 O ARG B 429 45.044 −14.111 92.057 1.00 21.79 3642 N THR B 430 44.621 −12.595 93.642 1.00 14.07 3643 CA THR B 430 45.452 −13.296 94.620 1.00 15.97 3644 CB THR B 430 45.339 −12.646 96.079 1.00 9.39 3645 OG1 THR B 430 45.995 −11.357 96.080 1.00 14.87 3646 CG2 THR B 430 46.033 −13.520 97.122 1.00 5.25 3647 C THR B 430 45.060 −14.795 94.676 1.00 17.85 3648 O THR B 430 45.911 −15.685 94.529 1.00 18.15 3649 N LEU B 431 43.781 −15.085 94.887 1.00 17.45 3650 CA LEU B 431 43.366 −16.479 94.964 1.00 16.00 3651 CB LEU B 431 41.852 −16.597 95.030 1.00 14.31 3652 CG LEU B 431 41.172 −16.422 96.386 1.00 10.47 3653 CD1 LEU B 431 39.683 −16.470 96.162 1.00 21.26 3654 CD2 LEU B 431 41.612 −17.516 97.342 1.00 16.24 3655 C LEU B 431 43.891 −17.251 93.773 1.00 16.84 3656 O LEU B 431 44.572 −18.284 93.947 1.00 19.07 3657 N SER B 432 43.593 −16.736 92.575 1.00 13.15 3658 CA SER B 432 44.051 −17.351 91.331 1.00 12.49 3659 CB SER B 432 43.841 −16.400 90.163 1.00 5.25 3660 OG SER B 432 44.497 −16.878 89.014 1.00 16.69 3661 C SER B 432 45.518 −17.704 91.466 1.00 12.52 3662 O SER B 432 45.979 −18.771 91.060 1.00 14.34 3663 N SER B 433 46.248 −16.811 92.102 1.00 12.12 3664 CA SER B 433 47.669 −17.032 92.326 1.00 11.06 3665 CB SER B 433 48.306 −15.754 92.899 1.00 7.83 3666 OG SER B 433 49.703 −15.834 92.934 1.00 20.00 3667 C SER B 433 47.909 −18.200 93.265 1.00 11.27 3668 O SER B 433 48.640 −19.084 92.941 1.00 17.43 3669 N VAL B 434 47.284 −18.201 94.432 1.00 13.16 3670 CA VAL B 434 47.480 −19.271 95.410 1.00 15.82 3671 CB VAL B 434 46.644 −19.041 96.638 1.00 13.23 3672 CG1 VAL B 434 46.769 −20.194 97.581 1.00 28.07 3673 CG2 VAL B 434 47.099 −17.807 97.299 1.00 19.18 3674 C VAL B 434 47.074 −20.602 94.821 1.00 17.34 3675 O VAL B 434 47.662 −21.655 95.136 1.00 15.32 3676 N HIS B 435 46.067 −20.539 93.955 1.00 19.92 3677 CA HIS B 435 45.558 −21.719 93.263 1.00 20.76 3678 CB HIS B 435 44.291 −21.354 92.522 1.00 16.13 3679 CG HIS B 435 43.938 −22.327 91.449 1.00 13.43 3680 CD2 HIS B 435 44.084 −22.273 90.099 1.00 19.51 3681 ND1 HIS B 435 43.386 −23.552 91.723 1.00 11.55 3682 CE1 HIS B 435 43.199 −24.214 90.590 1.00 21.95 3683 NE2 HIS B 435 43.617 −23.458 89.589 1.00 18.37 3684 C HIS B 435 46.587 −22.325 92.265 1.00 22.94 3685 O HIS B 435 46.665 −23.554 92.081 1.00 22.54 3686 N SER B 436 47.372 −21.469 91.617 1.00 22.22 3687 CA SER B 436 48.376 −21.988 90.703 1.00 26.24 3688 CB SER B 436 48.882 −20.900 89.784 1.00 16.08 3689 OG SER B 436 49.629 −19.982 90.515 1.00 31.23 3690 C SER B 436 49.517 −22.559 91.551 1.00 27.57 3691 O SER B 436 50.224 −23.486 91.135 1.00 31.33 3692 N GLU B 437 49.690 −22.026 92.755 1.00 24.78 3693 CA GLU B 437 50.717 −22.575 93.595 1.00 30.51 3694 CB GLU B 437 51.020 −21.669 94.765 1.00 32.25 3695 CG GLU B 437 51.777 −20.430 94.342 1.00 52.73 3696 CD GLU B 437 52.395 −19.681 95.513 1.00 57.67 3697 OE1 GLU B 437 51.659 −18.973 96.260 1.00 58.28 3698 OE2 GLU B 437 53.627 −19.813 95.688 1.00 55.84 3699 C GLU B 437 50.239 −23.904 94.088 1.00 30.02 3700 O GLU B 437 51.023 −24.686 94.598 1.00 31.65 3701 N GLN B 438 48.943 −24.152 93.923 1.00 29.86 3702 CA GLN B 438 48.350 −25.419 94.332 1.00 31.57 3703 CB GLN B 438 46.843 −25.222 94.617 1.00 32.61 3704 CG GLN B 438 46.058 −26.530 94.780 1.00 28.99 3705 CD GLN B 438 46.512 −27.280 95.992 1.00 18.79 3706 OE1 GLN B 438 45.973 −27.124 97.083 1.00 7.08 3707 NE2 GLN B 438 47.529 −28.071 95.818 1.00 14.08 3708 C GLN B 438 48.552 −26.473 93.204 1.00 30.40 3709 O GLN B 438 48.848 −27.652 93.454 1.00 20.62 3710 N VAL B 439 48.372 −26.026 91.963 1.00 28.89 3711 CA VAL B 439 48.517 −26.898 90.817 1.00 32.98 3712 CB VAL B 439 48.106 −26.171 89.555 1.00 28.41 3713 CG1 VAL B 439 48.478 −26.980 88.331 1.00 29.66 3714 CG2 VAL B 439 46.618 −25.936 89.597 1.00 31.84 3715 C VAL B 439 49.964 −27.352 90.721 1.00 35.16 3716 O VAL B 439 50.253 −28.511 90.461 1.00 37.48 3717 N PHE B 440 50.877 −26.425 90.930 1.00 35.36 3718 CA PHE B 440 52.284 −26.758 90.916 1.00 37.14 3719 CB PHE B 440 53.069 −25.504 91.166 1.00 42.75 3720 CG PHE B 440 54.504 −25.742 91.492 1.00 52.63 3721 CD1 PHE B 440 55.000 −25.476 92.756 1.00 55.53 3722 CD2 PHE B 440 55.385 −26.121 90.505 1.00 58.98 3723 CE1 PHE B 440 56.369 −25.579 93.012 1.00 58.23 3724 CE2 PHE B 440 56.751 −26.226 90.756 1.00 60.45 3725 CZ PHE B 440 57.240 −25.953 91.999 1.00 58.33 3726 C PHE B 440 52.533 −27.724 92.058 1.00 38.13 3727 O PHE B 440 53.277 −28.683 91.916 1.00 36.27 3728 N ALA B 441 51.897 −27.433 93.193 1.00 41.03 3729 CA ALA B 441 52.006 −28.231 94.404 1.00 38.74 3730 CB ALA B 441 51.241 −27.558 95.544 1.00 38.21 3731 C ALA B 441 51.492 −29.653 94.202 1.00 41.20 3732 O ALA B 441 52.049 −30.598 94.778 1.00 44.01 3733 N LEU B 442 50.428 −29.827 93.418 1.00 39.40 3734 CA LEU B 442 49.938 −31.179 93.223 1.00 45.00 3735 CB LEU B 442 48.402 −31.291 93.408 1.00 44.36 3736 CG LEU B 442 47.553 −30.244 92.704 1.00 48.78 3737 CD1 LEU B 442 47.759 −30.335 91.219 1.00 47.07 3738 CD2 LEU B 442 46.126 −30.447 93.039 1.00 40.98 3739 C LEU B 442 50.380 −31.721 91.881 1.00 49.14 3740 O LEU B 442 49.609 −32.344 91.144 1.00 50.63 3741 N ARG B 443 51.636 −31.445 91.556 1.00 51.74 3742 CA ARG B 443 52.214 −31.973 90.344 1.00 56.94 3743 CB ARG B 443 52.483 −30.893 89.301 1.00 64.35 3744 CG ARG B 443 53.907 −30.512 89.207 1.00 73.15 3745 CD ARG B 443 54.252 −29.690 87.962 1.00 75.45 3746 NE ARG B 443 55.411 −28.853 88.278 1.00 84.04 3747 CZ ARG B 443 56.364 −29.204 89.148 1.00 84.49 3748 NH1 ARG B 443 56.292 −30.364 89.778 1.00 84.77 3749 NH2 ARG B 443 57.396 −28.402 89.394 1.00 84.34 3750 C ARG B 443 53.524 −32.656 90.765 1.00 58.29 3751 O ARG B 443 54.010 −33.553 90.087 1.00 61.51 3752 N LEU B 444 54.108 −32.219 91.875 1.00 57.37 3753 CA LEU B 444 55.303 −32.866 92.387 1.00 56.22 3754 CB LEU B 444 56.356 −31.839 92.780 1.00 46.58 3755 CG LEU B 444 55.832 −30.667 93.566 1.00 45.81 3756 CD1 LEU B 444 55.264 −31.114 94.891 1.00 40.63 3757 CD2 LEU B 444 56.956 −29.725 93.812 1.00 42.09 3758 C LEU B 444 54.821 −33.697 93.570 1.00 60.75 3759 O LEU B 444 55.598 −34.344 94.288 1.00 64.57 3760 N GLN B 445 53.512 −33.628 93.795 1.00 63.20 3761 CA GLN B 445 52.894 −34.448 94.817 1.00 65.62 3762 CB GLN B 445 51.586 −33.855 95.304 1.00 66.95 3763 CG GLN B 445 51.441 −33.848 96.784 1.00 67.17 3764 CD GLN B 445 50.011 −33.686 97.187 1.00 78.52 3765 OE1 GLN B 445 49.706 −33.566 98.373 1.00 83.85 3766 NE2 GLN B 445 49.107 −33.697 96.202 1.00 75.18 3767 C GLN B 445 52.601 −35.594 93.843 1.00 68.02 3768 O GLN B 445 53.156 −35.627 92.722 1.00 70.38 3769 N ASP B 446 51.712 −36.510 94.195 1.00 65.55 3770 CA ASP B 446 51.463 −37.605 93.275 1.00 65.65 3771 CB ASP B 446 51.003 −38.828 94.074 1.00 68.46 3772 CG ASP B 446 49.491 −38.970 94.087 1.00 80.66 3773 OD1 ASP B 446 48.821 −38.082 94.675 1.00 85.07 3774 OD2 ASP B 446 48.973 −39.950 93.481 1.00 84.14 3775 C ASP B 446 50.517 −37.389 92.073 1.00 65.38 3776 O ASP B 446 50.828 −37.814 90.943 1.00 65.01 3777 N LYS B 447 49.413 −36.674 92.268 1.00 62.03 3778 CA LYS B 447 48.428 −36.590 91.201 1.00 57.38 3779 CB LYS B 447 47.075 −36.604 91.863 1.00 53.29 3780 CG LYS B 447 46.954 −35.520 92.915 1.00 44.15 3781 CD LYS B 447 46.999 −36.068 94.334 1.00 53.51 3782 CE LYS B 447 45.817 −36.985 94.621 1.00 51.24 3783 NZ LYS B 447 46.116 −37.877 95.783 1.00 46.86 3784 C LYS B 447 48.414 −35.564 90.054 1.00 56.84 3785 O LYS B 447 48.875 −34.437 90.218 1.00 56.28 3786 N LYS B 448 47.855 −35.977 88.904 1.00 52.56 3787 CA LYS B 448 47.745 −35.114 87.730 1.00 47.66 3788 CB LYS B 448 48.241 −35.852 86.476 1.00 52.17 3789 CG LYS B 448 49.387 −36.809 86.784 1.00 59.51 3790 CD LYS B 448 50.336 −37.016 85.619 1.00 72.25 3791 CE LYS B 448 51.569 −37.802 86.080 1.00 76.88 3792 NZ LYS B 448 52.651 −37.852 85.038 1.00 83.91 3793 C LYS B 448 46.272 −34.712 87.573 1.00 41.95 3794 O LYS B 448 45.432 −35.114 88.367 1.00 36.65 3795 N LEU B 449 45.964 −33.933 86.542 1.00 36.83 3796 CA LEU B 449 44.600 −33.475 86.317 1.00 29.86 3797 CB LEU B 449 44.586 −31.939 86.315 1.00 29.17 3798 CG LEU B 449 45.319 −31.191 87.441 1.00 21.55 3799 CD1 LEU B 449 45.698 −29.739 87.026 1.00 13.48 3800 CD2 LEU B 449 44.414 −31.191 88.666 1.00 25.46 3801 C LEU B 449 44.013 −33.966 85.001 1.00 25.36 3802 O LEU B 449 44.727 −34.159 84.017 1.00 20.95 3803 N PRO B 450 42.693 −34.159 84.959 1.00 23.78 3804 CD PRO B 450 41.633 −34.036 85.973 1.00 15.08 3805 CA PRO B 450 42.158 −34.616 83.670 1.00 24.94 3806 GB PRO B 450 40.642 −34.726 83.918 1.00 19.41 3807 CG PRO B 450 40.405 −33.860 85.110 1.00 19.53 3808 C PRO B 450 42.498 −33.588 82.618 1.00 27.11 3809 O PRO B 450 42.523 −32.384 82.933 1.00 26.09 3810 N PRO B 451 42.775 −34.040 81.366 1.00 29.87 3811 CD PRO B 451 42.281 −35.332 80.852 1.00 26.06 3812 CA PRO B 451 43.127 −33.160 80.233 1.00 27.77 3813 CB PRO B 451 42.705 −33.991 79.011 1.00 25.33 3814 CG PRO B 451 41.672 −34.911 79.548 1.00 28.40 3815 C PRO B 451 42.537 −31.742 80.216 1.00 23.36 3816 O PRO B 451 43.259 −30.771 80.128 1.00 27.32 3817 N LEU B 452 41.227 −31.635 80.298 1.00 19.34 3818 CA LEU B 452 40.610 −30.336 80.289 1.00 18.25 3819 CB LEU B 452 39.095 −30.464 80.525 1.00 14.12 3820 CG LEU B 452 38.325 −29.138 80.411 1.00 13.10 3821 CD1 LEU B 452 38.711 −28.489 79.089 1.00 18.06 3822 CD2 LEU B 452 36.855 −29.329 80.488 1.00 5.25 3823 C LEU B 452 41.244 −29.424 81.346 1.00 19.73 3824 O LEU B 452 41.904 −28.434 80.990 1.00 18.11 3825 N LEU B 453 41.033 −29.737 82.629 1.00 18.83 3826 CA LEU B 453 41.602 −28.927 83.707 1.00 19.53 3827 GB LEU B 453 41.444 −29.610 85.060 1.00 13.81 3828 CG LEU B 453 40.005 −29.927 85.467 1.00 22.28 3829 CD1 LEU B 453 40.019 −30.669 86.841 1.00 12.32 3830 CD2 LEU B 453 39.206 −28.627 85.529 1.00 10.46 3831 C LEU B 453 43.081 −28.680 83.463 1.00 22.21 3832 O LEU B 453 43.583 −27.565 83.690 1.00 23.09 3833 N SER B 454 43.770 −29.728 83.011 1.00 22.76 3834 CA SER B 454 45.193 −29.644 82.712 1.00 23.20 3835 CB SER B 454 45.702 −31.022 82.293 1.00 28.99 3836 OG SER B 454 47.115 −30.997 82.118 1.00 31.87 3837 C SER B 454 45.494 −28.593 81.591 1.00 21.00 3838 O SER B 454 46.543 −27.934 81.598 1.00 16.82 3839 N GLU B 455 44.582 −28.469 80.635 1.00 17.12 3840 CA GLU B 455 44.726 −27.496 79.576 1.00 24.84 3841 CB GLU B 455 43.526 −27.501 78.662 1.00 26.84 3842 CG GLU B 455 43.700 −28.184 77.353 1.00 18.84 3843 CD GLU B 455 42.476 −27.976 76.444 1.00 38.40 3844 OE1 GLU B 455 42.120 −28.905 75.655 1.00 30.86 3845 OE2 GLU B 455 41.859 −26.868 76.516 1.00 26.15 3846 C GLU B 455 44.794 −26.119 80.183 1.00 30.03 3847 O GLU B 455 45.732 −25.375 79.938 1.00 33.86 3848 N ILE B 456 43.788 −25.790 80.983 1.00 32.39 3849 CA ILE B 456 43.691 −24.492 81.643 1.00 33.77 3850 CB ILE B 456 42.298 −24.352 82.263 1.00 37.16 3851 CG2 ILE B 456 42.093 −22.971 82.780 1.00 44.25 3852 CG1 ILE B 456 41.238 −24.668 81.231 1.00 32.75 3853 CD1 ILE B 456 39.825 −24.585 81.833 1.00 44.84 3854 C ILE B 456 44.703 −24.174 82.755 1.00 31.98 3855 O ILE B 456 45.170 −23.053 82.861 1.00 22.75 3856 N TRP B 457 45.057 −25.178 83.552 1.00 35.21 3857 CA TRP B 457 45.928 −24.959 84.705 1.00 40.82 3858 CB TRP B 457 45.155 −25.417 85.942 1.00 38.48 3859 CG TRP B 457 43.835 −24.729 86.039 1.00 22.11 3860 CD2 TRP B 457 42.656 −25.242 86.652 1.00 19.60 3861 CE2 TRP B 457 41.699 −24.212 86.632 1.00 19.91 3862 CE3 TRP B 457 42.315 −26.478 87.214 1.00 16.21 3863 CD1 TRP B 457 43.567 −23.463 85.673 1.00 5.25 3864 NE1 TRP B 457 42.301 −23.137 86.023 1.00 9.21 3865 CZ2 TRP B 457 40.404 −24.358 87.167 1.00 21.85 3866 CZ3 TRP B 457 41.031 −26.639 87.748 1.00 20.82 3867 CH2 TRP B 457 40.087 −25.578 87.717 1.00 28.52 3868 C TRP B 457 47.370 −25.460 84.769 1.00 43.65 3869 O TRP B 457 48.235 −24.810 85.323 1.00 42.42 3870 N ASP B 458 47.616 −26.629 84.223 1.00 49.96 3871 CA ASP B 458 48.943 −27.233 84.202 1.00 57.57 3872 CB ASP B 458 48.814 −28.592 83.517 1.00 53.25 3873 CG ASP B 458 48.626 −29.711 84.456 1.00 53.35 3874 OD1 ASP B 458 48.604 −29.447 85.668 1.00 53.90 3875 OD2 ASP B 458 48.517 −30.865 83.990 1.00 47.19 3876 C ASP B 458 49.880 −26.432 83.291 1.00 66.03 3877 O ASP B 458 51.116 −26.670 83.226 1.00 69.33 3878 N VAL B 459 49.313 −25.415 82.668 1.00 72.79 3879 CA VAL B 459 49.997 −24.823 81.543 1.00 77.10 3880 CB VAL B 459 49.706 −25.870 80.387 1.00 82.78 3881 CG1 VAL B 459 49.387 −25.195 79.068 1.00 79.26 3882 CG2 VAL B 459 50.805 −26.921 80.294 1.00 77.57 3883 C VAL B 459 49.287 −23.512 81.206 1.00 78.30 3884 O VAL B 459 48.034 −23.590 81.120 1.00 74.12 3885 OT VAL B 459 49.966 −22.483 80.966 1.00 85.25 3886 VAL B 459 3887 CB ALA C −3 54.311 −13.946 114.812 1.00 76.41 3888 C ALA C −3 56.087 −12.625 113.749 1.00 73.80 3889 O ALA C −3 57.155 −12.786 113.165 1.00 76.36 3890 N ALA C −3 55.919 −12.651 116.146 1.00 69.92 3891 CA ALA C −3 55.735 −13.496 114.929 1.00 71.93 3892 N LEU C −2 55.158 −11.736 113.386 1.00 72.81 3893 CA LEU C −2 55.342 −10.770 112.302 1.00 69.21 3894 CB LEU C −2 53.991 −10.325 111.752 1.00 63.26 3895 CG LEU C −2 53.533 −11.140 110.563 1.00 54.22 3896 CD1 LEU C −2 52.080 −10.849 110.306 1.00 49.29 3897 CD2 LEU C −2 54.399 −10.811 109.369 1.00 49.99 3898 C LEU C −2 55.993 −9.591 113.019 1.00 69.59 3899 O LEU C −2 55.292 −8.692 113.507 1.00 73.65 3900 N ALA C −1 57.318 −9.580 113.095 1.00 66.78 3901 CA ALA C −1 58.036 −8.509 113.802 1.00 69.32 3902 CB ALA C −1 57.372 −8.206 115.172 1.00 60.13 3903 C ALA C −1 59.414 −9.108 114.000 1.00 67.12 3904 O ALA C −1 60.454 −8.491 113.732 1.00 71.81 3905 N ALA C 0 59.389 −10.329 114.513 1.00 63.04 3906 CA ALA C 0 60.592 −11.111 114.692 1.00 56.99 3907 CB ALA C 0 60.285 −12.293 115.582 1.00 51.89 3908 C ALA C 0 60.969 −11.582 113.261 1.00 53.09 3909 O ALA C 0 62.120 −11.486 112.833 1.00 48.76 3910 N ARG C 1 59.982 −12.037 112.493 1.00 51.49 3911 CA ARG C 1 60.244 −12.530 111.150 1.00 46.31 3912 CB ARG C 1 58.969 −13.173 110.567 1.00 53.19 3913 CG ARG C 1 58.887 −14.686 110.805 1.00 46.35 3914 CD ARG C 1 57.488 −15.191 111.211 1.00 56.12 3915 NE ARG C 1 56.938 −16.060 110.172 1.00 62.40 3916 CZ ARG C 1 56.402 −15.603 109.038 1.00 70.46 3917 NH1 ARG C 1 56.342 −14.295 108.832 1.00 70.27 3918 NH2 ARG C 1 55.965 −16.439 108.090 1.00 60.91 3919 C ARG C 1 60.752 −11.403 110.254 1.00 45.64 3920 O ARG C 1 61.385 −11.646 109.208 1.00 44.18 3921 N HIS C 2 60.520 −10.167 110.698 1.00 40.66 3922 CA HIS C 2 60.909 −8.991 109.926 1.00 35.21 3923 CB HIS C 2 59.663 −8.408 109.271 1.00 35.35 3924 CG HIS C 2 58.977 −9.362 108.341 1.00 36.61 3925 CD2 HIS C 2 58.701 −9.277 107.017 1.00 39.53 3926 ND1 HIS C 2 58.499 −10.589 108.749 1.00 39.75 3927 CE1 HIS C 2 57.963 −11.218 107.719 1.00 47.92 3928 NE2 HIS C 2 58.073 −10.441 106.655 1.00 45.80 3929 C HIS C 2 61.612 −7.918 110.743 1.00 30.30 3930 O HIS C 2 61.117 −6.806 110.857 1.00 23.01 3931 N LYS C 3 62.789 −8.257 111.263 1.00 32.28 3932 CA LYS C 3 63.564 −7.371 112.122 1.00 32.74 3933 CB LYS C 3 64.897 −8.049 112.468 1.00 39.84 3934 CG LYS C 3 65.426 −7.709 113.849 1.00 63.43 3935 CD LYS C 3 66.560 −8.657 114.292 1.00 81.08 3936 CE LYS C 3 67.102 −8.316 115.700 1.00 83.76 3937 NZ LYS C 3 68.174 −9.293 116.108 1.00 81.79 3938 C LYS C 3 63.793 −5.948 111.593 1.00 33.33 3939 O LYS C 3 63.344 −4.979 112.227 1.00 28.13 3940 N ILE C 4 64.470 −5.822 110.441 1.00 31.52 3941 CA ILE C 4 64.768 −4.505 109.868 1.00 31.05 3942 CB ILE C 4 65.504 −4.602 108.524 1.00 27.45 3943 CG2 ILE C 4 65.802 −3.201 108.015 1.00 15.44 3944 CG1 ILE C 4 66.793 −5.400 108.658 1.00 15.17 3945 CD1 ILE C 4 67.456 −5.634 107.333 1.00 5.25 3946 C ILE C 4 63.487 −3.703 109.601 1.00 35.03 3947 O ILE C 4 63.380 −2.504 109.892 1.00 38.81 3948 N LEU C 5 62.501 −4.367 109.036 1.00 32.79 3949 CA LEU C 5 61.284 −3.666 108.760 1.00 31.98 3950 CB LEU C 5 60.278 −4.606 108.116 1.00 28.91 3951 CG LEU C 5 59.032 −3.918 107.587 1.00 21.35 3952 CD1 LEU C 5 59.475 −3.018 106.479 1.00 27.75 3953 CD2 LEU C 5 58.025 −4.921 107.073 1.00 28.10 3954 C LEU C 5 60.732 −3.127 110.055 1.00 34.05 3955 O LEU C 5 60.301 −1.981 110.131 1.00 37.58 3956 N HIS C 6 60.743 −3.959 111.089 1.00 37.37 3957 CA HIS C 6 60.210 −3.543 112.385 1.00 40.64 3958 CB HIS C 6 60.402 −4.640 113.451 1.00 45.69 3959 CG HIS C 6 59.721 −4.343 114.764 1.00 52.81 3960 CD2 HIS C 6 60.134 −3.641 115.848 1.00 48.43 3961 ND1 HIS C 6 58.425 −4.734 115.044 1.00 56.64 3962 CE1 HIS C 6 58.071 −4.283 116.233 1.00 47.70 3963 NE2 HIS C 6 59.091 −3.614 116.743 1.00 45.83 3964 C HIS C 6 60.910 −2.284 112.853 1.00 42.95 3965 O HIS C 6 60.257 −1.390 113.365 1.00 46.57 3966 N ARG C 7 62.233 −2.237 112.667 1.00 41.77 3967 CA ARG C 7 63.072 −1.112 113.064 1.00 39.07 3968 CB ARG C 7 64.536 −1.425 112.743 1.00 47.69 3969 CG ARG C 7 65.542 −0.516 113.444 1.00 53.50 3970 CD ARG C 7 66.864 −0.572 112.734 1.00 59.29 3971 NE ARG C 7 66.855 0.241 111.514 1.00 74.08 3972 CZ ARG C 7 67.445 −0.109 110.371 1.00 78.20 3973 NH1 ARG C 7 68.084 −1.271 110.290 1.00 83.39 3974 NH2 ARG C 7 67.427 0.721 109.320 1.00 72.71 3975 C ARG C 7 62.663 0.199 112.376 1.00 36.66 3976 O ARG C 7 62.613 1.274 113.005 1.00 34.51 3977 N LEU C 8 62.376 0.124 111.082 1.00 32.76 3978 CA LEU C 8 61.949 1.330 110.368 1.00 33.44 3979 CB LEU C 8 61.714 1.050 108.882 1.00 26.26 3980 CG LEU C 8 62.997 0.774 108.087 1.00 26.09 3981 CD1 LEU C 8 62.728 0.308 106.677 1.00 18.55 3982 CD2 LEU C 8 63.796 2.047 108.092 1.00 30.16 3983 C LEU C 8 60.678 1.904 110.965 1.00 33.67 3984 O LEU C 8 60.523 3.110 111.030 1.00 35.99 3985 N LEU C 9 59.762 1.056 111.410 1.00 31.98 3986 CA LEU C 9 58.538 1.589 111.984 1.00 35.05 3987 CB LEU C 9 57.514 0.489 112.090 1.00 25.12 3988 CG LEU C 9 57.147 0.051 110.716 1.00 20.67 3989 CD1 LEU C 9 56.876 −1.425 110.711 1.00 26.48 3990 CD2 LEU C 9 55.959 0.884 110.274 1.00 20.75 3991 C LEU C 9 58.717 2.244 113.349 1.00 40.45 3992 O LEU C 9 57.824 2.944 113.825 1.00 39.35 3993 N GLN C 10 59.870 2.025 113.974 1.00 46.16 3994 CA GLN C 10 60.125 2.585 115.300 1.00 52.79 3995 CB GLN C 10 60.679 1.510 116.251 1.00 49.83 3996 CG GLN C 10 59.666 0.491 116.727 1.00 45.94 3997 CD GLN C 10 60.162 −0.289 117.943 1.00 46.74 3998 OE1 GLN C 10 61.137 −1.038 117.865 1.00 47.34 3999 NE2 GLN C 10 59.494 −0.099 119.078 1.00 45.75 4000 C GLN C 10 61.081 3.770 115.293 1.00 57.32 4001 O GLN C 10 61.180 4.476 116.298 1.00 58.42 4002 N GLU C 11 61.782 3.992 114.179 1.00 60.53 4003 CA GLU C 11 62.709 5.114 114.127 1.00 66.82 4004 CB GLU C 11 63.652 5.000 112.931 1.00 64.61 4005 CG GLU C 11 63.118 5.565 111.627 1.00 75.77 4006 CD GLU C 11 64.147 5.526 110.498 1.00 80.79 4007 OE1 GLU C 11 64.583 4.419 110.101 1.00 79.00 4008 OE2 GLU C 11 64.529 6.611 110.004 1.00 85.25 4009 C GLU C 11 61.934 6.431 114.051 1.00 71.59 4010 O GLU C 11 62.520 7.506 114.216 1.00 74.45 4011 N GLY C 12 60.619 6.340 113.816 1.00 73.58 4012 CA GLY C 12 59.781 7.531 113.735 1.00 73.73 4013 C GLY C 12 59.669 8.271 115.065 1.00 73.31 4014 O GLY C 12 60.274 7.811 116.063 1.00 70.87 4015 OT GLY C 12 58.974 9.314 115.117 1.00 73.17 4016 GLY C 12 4017 CB ARG D 1 46.885 −26.379 71.137 1.00 46.99 4018 CG ARG D 1 46.803 −25.652 69.764 1.00 48.39 4019 CD ARG D 1 46.249 −24.242 69.898 1.00 55.16 4020 NE ARG D 1 44.834 −24.129 69.566 1.00 57.32 4021 CZ ARG D 1 43.994 −23.298 70.171 1.00 59.78 4022 NH1 ARG D 1 44.417 −22.515 71.155 1.00 58.58 4023 NH2 ARG D 1 42.740 −23.226 69.759 1.00 56.99 4024 C ARG D 1 46.009 −25.804 73.394 1.00 52.97 4025 O ARG D 1 46.351 −26.313 74.496 1.00 55.64 4026 N ARG D 1 48.363 −25.358 72.954 1.00 43.08 4027 CA ARG D 1 47.013 −25.417 72.355 1.00 50.28 4028 N HIS D 2 44.763 −25.584 73.045 1.00 53.02 4029 CA HIS D 2 43.746 −25.866 73.986 1.00 47.41 4030 CB HIS D 2 43.273 −24.534 74.534 1.00 45.72 4031 CG HIS D 2 44.278 −23.864 75.434 1.00 49.31 4032 CD2 HIS D 2 44.255 −23.654 76.776 1.00 47.68 4033 ND1 HIS D 2 45.484 −23.349 74.995 1.00 54.30 4034 CE1 HIS D 2 46.156 −22.857 76.026 1.00 49.22 4035 NE2 HIS D 2 45.430 −23.032 77.120 1.00 38.45 4036 C HIS D 2 42.710 −26.589 73.193 1.00 48.14 4037 O HIS D 2 41.662 −26.036 72.884 1.00 47.23 4038 N LYS D 3 43.036 −27.825 72.812 1.00 46.92 4039 CA LYS D 3 42.103 −28.609 72.023 1.00 43.56 4040 CB LYS D 3 42.672 −30.006 71.775 1.00 46.80 4041 CG LYS D 3 43.825 −30.070 70.783 1.00 49.39 4042 CD LYS D 3 44.951 −30.977 71.272 1.00 60.15 4043 CE LYS D 3 44.485 −32.407 71.569 1.00 65.20 4044 NZ LYS D 3 45.623 −33.253 72.085 1.00 55.18 4045 C LYS D 3 40.696 −28.706 72.638 1.00 43.26 4046 O LYS D 3 39.721 −28.297 71.998 1.00 43.79 4047 N ILE D 4 40.578 −29.185 73.879 1.00 40.38 4048 CA ILE D 4 39.256 −29.346 74.456 1.00 39.52 4049 CB ILE D 4 39.312 −30.051 75.802 1.00 34.88 4050 CG2 ILE D 4 37.906 −30.280 76.289 1.00 26.09 4051 CG1 ILE D 4 40.057 −31.381 75.664 1.00 27.24 4052 CD1 ILE D 4 40.402 −32.080 76.974 1.00 15.88 4053 C ILE D 4 38.486 −28.046 74.623 1.00 42.72 4054 O ILE D 4 37.365 −27.874 74.104 1.00 42.17 4055 N LEU D 5 39.104 −27.119 75.345 1.00 43.51 4056 CA LEU D 5 38.487 −25.818 75.604 1.00 41.72 4057 CB LEU D 5 39.492 −24.902 76.303 1.00 34.56 4058 CG LEU D 5 38.972 −23.526 76.646 1.00 12.80 4059 CD1 LEU D 5 37.986 −23.667 77.770 1.00 23.18 4060 CD2 LEU D 5 40.111 −22.651 77.080 1.00 18.96 4061 C LEU D 5 38.016 −25.190 74.303 1.00 41.97 4062 O LEU D 5 36.878 −24.766 74.163 1.00 42.53 4063 N HIS D 6 38.914 −25.134 73.337 1.00 46.29 4064 CA HIS D 6 38.587 −24.574 72.027 1.00 46.35 4065 CB HIS D 6 39.770 −24.777 71.085 1.00 48.78 4066 CG HIS D 6 39.536 −24.257 69.702 1.00 49.82 4067 CD2 HIS D 6 40.214 −23.348 68.965 1.00 52.01 4068 ND1 HIS D 6 38.500 −24.689 68.904 1.00 52.61 4069 CE1 HIS D 6 38.548 −24.073 67.739 1.00 37.70 4070 NE2 HIS D 6 39.581 −23.252 67.752 1.00 45.90 4071 C HIS D 6 37.369 −25.306 71.480 1.00 43.76 4072 O HIS D 6 36.400 −24.687 71.069 1.00 44.39 4073 N ARG D 7 37.449 −26.631 71.492 1.00 40.72 4074 CA ARG D 7 36.385 −27.490 71.019 1.00 42.50 4075 CB ARG D 7 36.724 −28.940 71.370 1.00 52.07 4076 CG ARG D 7 35.783 −29.963 70.763 1.00 60.29 4077 CD ARG D 7 36.198 −31.348 71.144 1.00 69.09 4078 NE ARG D 7 35.732 −32.356 70.195 1.00 82.74 4079 CZ ARG D 7 36.078 −33.641 70.259 1.00 85.02 4080 NH1 ARG D 7 36.883 −34.044 71.232 1.00 84.76 4081 NH2 ARG D 7 35.642 −34.516 69.345 1.00 84.04 4082 C ARG D 7 35.028 −27.110 71.615 1.00 41.71 4083 O ARG D 7 34.006 −27.079 70.917 1.00 41.93 4084 N LEU D 8 35.015 −26.826 72.917 1.00 40.13 4085 CA LEU D 8 33.780 −26.424 73.610 1.00 34.27 4086 CB LEU D 8 34.005 −26.284 75.111 1.00 22.98 4087 CG LEU D 8 34.147 −27.629 75.837 1.00 29.94 4088 CD1 LEU D 8 34.817 −27.430 77.210 1.00 8.95 4089 CD2 LEU D 8 32.754 −28.265 75.961 1.00 11.55 4090 C LEU D 8 33.263 −25.114 73.074 1.00 33.85 4091 O LEU D 8 32.060 −24.992 72.874 1.00 35.85 4092 N LEU D 9 34.163 −24.153 72.830 1.00 30.89 4093 CA LEU D 9 33.758 −22.867 72.308 1.00 31.74 4094 CB LEU D 9 34.987 −22.001 72.118 1.00 28.12 4095 CG LEU D 9 35.548 −21.424 73.414 1.00 28.94 4096 CD1 LEU D 9 37.001 −20.987 73.211 1.00 30.37 4097 CD2 LEU D 9 34.660 −20.246 73.863 1.00 24.09 4098 C LEU D 9 32.938 −22.970 71.013 1.00 35.76 4099 O LEU D 9 32.121 −22.106 70.710 1.00 31.76 4100 N GLN D 10 33.108 −24.049 70.265 1.00 43.66 4101 CA GLN D 10 32.350 −24.174 69.039 1.00 55.74 4102 CB GLN D 10 33.028 −25.151 68.108 1.00 53.38 4103 CG GLN D 10 34.255 −24.503 67.495 1.00 70.76 4104 CD GLN D 10 34.942 −25.365 66.456 1.00 82.40 4105 OE1 GLN D 10 35.249 −26.535 66.706 1.00 85.25 4106 NE2 GLN D 10 35.192 −24.791 65.282 1.00 83.74 4107 C GLN D 10 30.897 −24.529 69.271 1.00 63.68 4108 O GLN D 10 30.002 −23.797 68.811 1.00 68.67 4109 N GLU D 11 30.638 −25.617 69.985 1.00 67.43 4110 CA GLU D 11 29.249 −25.956 70.260 1.00 72.87 4111 CB GLU D 11 28.361 −25.659 69.036 1.00 72.17 4112 CG GLU D 11 28.363 −26.723 67.979 1.00 77.23 4113 CD GLU D 11 27.039 −26.794 67.283 1.00 77.48 4114 OE1 GLU D 11 26.074 −26.166 67.778 1.00 82.39 4115 OE2 GLU D 11 26.951 −27.477 66.243 1.00 84.23 4116 C GLU D 11 29.037 −27.402 70.720 1.00 75.56 4117 O GLU D 11 28.474 −28.237 69.996 1.00 78.13 4118 N GLY D 12 29.481 −27.709 71.933 1.00 74.76 4119 CA GLY D 12 29.276 −29.057 72.415 1.00 76.84 4120 C GLY D 12 30.267 −29.492 73.451 1.00 79.67 4121 O GLY D 12 31.471 −29.337 73.263 1.00 81.38 4122 N ALA D 13 29.748 −30.039 74.550 1.00 81.59 4123 CA ALA D 13 30.594 −30.530 75.638 1.00 82.83 4124 CB ALA D 13 29.784 −30.691 76.915 1.00 78.50 4125 C ALA D 13 31.237 −31.872 75.245 1.00 83.89 4126 O ALA D 13 30.559 −32.921 75.372 1.00 84.11 4127 OT ALA D 13 32.413 −31.859 74.786 1.00 85.25 4128 ALA D 13 4129 C1 MON E 1 62.540 2.237 92.135 1.00 23.02 4130 C2 MON E 1 62.923 0.723 92.177 1.00 28.08 4131 C3 MON E 1 61.083 2.417 92.743 1.00 26.18 4132 C4 MON E 1 63.558 3.145 92.927 1.00 24.77 4133 C5 MON E 1 61.958 −0.187 91.323 1.00 26.56 4134 C6 MON E 1 64.314 0.292 91.658 1.00 30.49 4135 C7 MON E 1 60.644 3.957 92.790 1.00 27.34 4136 C8 MON E 1 60.038 1.470 92.014 1.00 19.55 4137 C9 MON E 1 63.044 4.480 93.489 1.00 36.10 4138 C10 MON E 1 62.683 −1.560 91.586 1.00 24.95 4139 C11 MON E 1 60.537 −0.009 92.002 1.00 29.51 4140 C12 MON E 1 61.841 0.186 89.786 1.00 16.20 4141 C13 MON E 1 64.175 −1.229 91.419 1.00 18.12 4142 C14 MON E 1 61.755 4.860 93.463 1.00 30.42 4143 C15 MON E 1 59.373 4.137 93.699 1.00 30.42 4144 C16 MON E 1 60.385 4.442 91.315 1.00 24.14 4145 C17 MON E 1 62.229 −2.860 90.768 1.00 29.22 4146 C18 MON E 1 61.404 6.156 94.244 1.00 35.00 4147 C19 MON E 1 58.862 5.583 93.936 1.00 46.46 4148 C20 MON E 1 62.844 −4.206 91.248 1.00 36.67 4149 C21 MON E 1 60.689 −3.060 90.528 1.00 25.16 4150 C22 MON E 1 59.966 6.678 94.082 1.00 52.71 4151 C23 MON E 1 61.934 −5.259 91.890 1.00 28.32 4152 O24 MON E 1 59.955 7.475 92.901 1.00 85.00 4153 C25 MON E 1 62.616 −6.595 92.271 1.00 33.33 4154 C26 MON E 1 64.049 −6.802 92.694 1.00 31.56 4155 O27 MON E 1 62.870 −7.033 93.557 1.00 34.02 4156 C28 MON E 1 65.035 −5.610 92.962 1.00 32.42 4157 C29 MON E 1 64.668 −8.091 92.254 1.00 25.44 4158 MON E 1 4159 C1 MON F 1 33.143 −27.208 92.268 1.00 31.39 4160 C2 MON F 1 34.685 −27.478 92.340 1.00 33.41 4161 C3 MON F 1 32.909 −25.745 91.643 1.00 34.01 4162 C4 MON F 1 32.368 −28.285 91.413 1.00 28.68 4163 C5 MON F 1 35.449 −26.445 93.275 1.00 31.71 4164 C6 MON F 1 35.179 −28.845 92.873 1.00 30.43 4165 C7 MON F 1 31.352 −25.416 91.473 1.00 29.98 4166 C8 MON F 1 33.719 −24.625 92.441 1.00 32.49 4167 C9 MON F 1 31.055 −27.856 90.739 1.00 30.66 4168 C10 MON F 1 36.887 −27.086 93.091 1.00 25.29 4169 C11 MON F 1 35.231 −25.010 92.612 1.00 30.79 4170 C12 MON F 1 34.930 −26.361 94.778 1.00 29.42 4171 C13 MON F 1 36.664 −28.611 93.183 1.00 24.46 4172 C14 MON F 1 30.589 −26.596 90.731 1.00 26.79 4173 C15 MON F 1 31.148 −24.136 90.567 1.00 26.84 4174 C16 MON F 1 30.744 −25.211 92.903 1.00 20.76 4175 C17 MON F 1 38.081 −26.548 93.991 1.00 27.49 4176 C18 MON F 1 29.330 −26.345 89.865 1.00 32.12 4177 C19 MON F 1 29.688 −23.746 90.220 1.00 32.60 4178 C20 MON F 1 39.496 −27.164 93.664 1.00 22.54 4179 C21 MON F 1 38.180 −24.968 94.088 1.00 16.40 4180 C22 MON F 1 28.700 −24.946 89.952 1.00 28.64 4181 C23 MON F 1 40.186 −26.571 92.450 1.00 19.64 4182 O24 MON F 1 27.766 −25.016 91.017 1.00 67.54 4183 C25 MON F 1 41.575 −27.102 92.134 1.00 14.61 4184 C26 MON F 1 41.899 −28.527 91.780 1.00 23.10 4185 O27 MON F 1 42.005 −27.366 90.863 1.00 30.73 4186 C28 MON F 1 40.778 −29.602 91.579 1.00 21.29 4187 C29 MON F 1 43.302 −29.021 92.054 1.00 32.60 4188 MON F 1 4189 O HOH W 1 28.934 −19.880 85.585 1.00 12.31 4190 O HOH W 2 55.303 6.531 98.855 1.00 12.91 4191 O HOH W 3 48.804 −3.531 102.603 1.00 16.12 4192 O HOH W 4 27.154 4.730 78.611 1.00 11.66 4193 O HOH W 5 58.488 4.566 97.443 1.00 15.31 4194 O HOH W 6 40.150 −3.783 102.943 1.00 16.64 4195 O HOH W 7 38.828 −13.399 81.631 1.00 26.36 4196 O HOH W 8 40.894 −5.696 85.588 1.00 23.67 4197 O HOH W 9 21.066 −19.167 91.749 1.00 23.16 4198 O HOH W 10 23.739 −13.477 73.847 1.00 27.83 4199 O HOH W 11 45.315 −13.580 85.785 1.00 17.40 4200 O HOH W 12 42.829 −3.310 82.124 1.00 13.24 4201 O HOH W 13 25.909 −21.766 87.993 1.00 30.21 4202 O HOH W 14 43.284 −12.942 99.122 1.00 34.84 4203 O HOH W 15 55.638 −6.539 98.489 1.00 18.17 4204 O HOH W 16 17.863 −15.351 90.350 1.00 35.08 4205 O HOH W 17 39.261 18.348 90.387 1.00 22.46 4206 O HOH W 18 60.616 −28.385 89.919 1.00 15.85 4207 O HOH W 19 61.230 9.208 103.371 1.00 16.60 4208 O HOH W 20 50.860 −42.107 89.699 1.00 17.48 4209 O HOH W 21 46.189 15.061 85.809 1.00 24.53 4210 O HOH W 22 52.856 8.642 98.253 1.00 36.93 4211 O HOH W 23 69.585 9.042 98.729 1.00 12.63 4212 O HOH W 24 24.849 −16.489 97.853 1.00 17.98 4213 O HOH W 25 16.214 −18.924 82.110 1.00 23.23 4214 O HOH W 26 23.966 −19.961 100.138 1.00 18.47 4215 O HOH W 27 30.621 2.102 77.894 1.00 26.09 4216 O HOH W 28 46.695 −34.723 97.299 1.00 31.88 4217 O HOH W 29 73.329 0.091 101.018 1.00 25.82 4218 O HOH W 30 57.802 11.513 84.158 1.00 28.34 4219 O HOH W 31 46.580 −8.461 78.008 1.00 12.33 4220 O HOH W 32 34.842 −5.244 107.956 1.00 31.46 4221 O HOH W 33 20.487 0.000 73.780 1.00 24.32 4222 O HOH W 34 36.203 1.678 77.127 1.00 32.71 4223 O HOH W 35 44.110 −31.439 104.995 1.00 33.24 4224 O HOH W 36 34.481 −11.772 72.134 1.00 70.97 4225 O HOH W 37 64.593 14.069 94.531 1.00 12.19 4226 O HOH W 38 40.360 0.619 76.551 1.00 23.37 4227 O HOH W 39 41.537 15.302 81.147 1.00 19.35 4228 O HOH W 40 43.053 13.888 83.764 1.00 17.50 4229 O HOH W 41 55.008 13.302 94.632 1.00 36.73 4230 O HOH W 42 48.001 −20.353 68.412 1.00 20.59 4231 O HOH W 43 16.865 1.283 76.436 1.00 27.34 4232 O HOH W 44 66.328 −9.830 75.869 1.00 18.16 4233 O HOH W 45 19.997 1.552 101.776 1.00 22.89 4234 O HOH W 46 46.772 17.189 93.223 1.00 31.59 4235 O HOH W 47 14.350 −13.006 73.032 1.00 41.74 4236 O HOH W 48 79.024 1.593 96.331 1.00 28.42 4237 O HOH W 49 49.770 19.140 94.124 1.00 32.22 4238 O HOH W 50 66.156 13.292 84.665 1.00 19.89 4239 O HOH W 51 51.382 −9.782 104.986 1.00 28.61 4240 O HOH W 52 58.197 −17.427 114.144 1.00 25.62 4241 O HOH W 53 55.351 14.653 106.539 1.00 38.93 4242 O HOH W 54 48.609 −32.570 106.727 1.00 20.34 4243 O HOH W 55 61.782 4.900 107.127 1.00 40.04 4244 O HOH W 56 74.497 −5.736 100.029 1.00 30.53 4245 O HOH W 57 22.456 −28.095 102.555 1.00 30.31 4246 O HOH W 58 20.657 −20.305 78.494 1.00 40.51 4247 O HOH W 59 25.060 −20.535 73.154 1.00 22.40 4248 O HOH W 60 53.571 −9.609 114.984 1.00 31.88 4249 O HOH W 61 69.559 −11.740 86.572 1.00 31.42 4250 O HOH W 62 51.818 2.263 74.063 1.00 29.20 4251 O HOH W 63 47.012 −20.795 71.045 1.00 27.78 4252 O HOH W 64 38.871 −10.924 69.744 1.00 35.12 4253 O HOH W 65 52.462 −13.956 98.987 1.00 27.92 4254 O HOH W 66 23.969 −22.605 99.762 1.00 32.94 4255 O HOH W 67 69.709 14.988 85.155 1.00 31.37 4256 O HOH W 68 33.026 −35.022 84.323 1.00 31.30 4257 O HOH W 69 16.576 −6.819 87.543 1.00 31.40 4258 O HOH W 70 65.039 −10.371 114.303 1.00 32.85 4259 O HOH W 71 22.767 −19.389 87.881 1.00 32.56 4260 O HOH W 72 43.815 −10.534 105.710 1.00 28.31 4261 O HOH W 73 45.987 13.056 105.640 1.00 31.16 4262 O HOH W 74 47.274 −13.091 87.837 1.00 32.00 4263 O HOH W 75 27.058 −15.700 98.366 1.00 32.70 4264 O HOH W 76 53.257 20.711 104.933 1.00 29.91 4265 O HOH W 77 41.043 −5.268 98.662 1.00 34.17 4266 O HOH W 78 44.789 −1.809 84.049 1.00 29.68 4267 O HOH W 79 41.310 −18.434 108.680 1.00 30.78 4268 O HOH W 80 38.207 11.844 105.526 1.00 32.08 4269 O HOH W 81 75.986 −0.830 81.601 1.00 34.96 4270 O HOH W 82 58.059 −18.316 88.869 1.00 33.11 4271 O HOH W 83 56.683 −14.479 100.385 1.00 27.89 4272 O HOH W 84 36.703 −25.555 86.528 1.00 36.34 4273 O HOH W 85 23.801 −15.167 88.443 1.00 37.39 4274 O HOH W 86 42.474 18.828 97.026 1.00 31.16 4275 O HOH W 87 48.669 −7.536 85.188 1.00 28.43 4276 O HOH W 88 21.591 0.859 78.322 1.00 31.94 4277 O HOH W 89 39.296 −33.752 80.236 1.00 30.91 4278 O HOH W 90 47.239 −3.382 83.812 1.00 33.55 4279 O HOH W 91 67.185 −20.200 93.278 1.00 38.18 4280 O HOH W 92 35.195 19.669 96.797 1.00 35.99 4281 O HOH W 93 49.803 −20.688 69.737 1.00 30.68 4282 O HOH W 94 64.688 −13.968 95.519 1.00 31.91 4283 O HOH W 95 79.308 4.287 82.277 1.00 36.78 4284 O HOH W 96 52.001 10.689 86.394 1.00 30.39 4285 O HOH W 97 62.214 9.705 94.059 1.00 31.68 4286 O HOH W 98 67.772 −13.671 78.429 1.00 32.38 4287 O HOH W 99 29.988 −3.122 102.391 1.00 35.15 4288 O HOH W 100 47.533 −20.550 105.577 1.00 32.36 4289 O HOH W 101 28.468 −35.314 99.506 1.00 31.25 4290 HOH W 101

[0377] TABLE 3 ATOMIC COORDINATE DATA FOR CRYSTALLIZED HUMAN LXR IN COMPLEX WITH T317 ATOM ATOM TYPE RESIDUE PROTEIN # # X Y Z OCC B 1 N GLN A 219 55.096 66.212 96.800 1.00 85.67 2 CA GLN A 219 54.529 67.185 95.712 1.00 82.61 3 CB GLN A 219 54.350 66.509 94.375 1.00 83.27 4 CG GLN A 219 54.180 67.585 93.195 1.00 85.89 5 CD GLN A 219 54.278 66.783 91.923 1.00 95.95 6 OE1 GLN A 219 54.336 65.475 91.973 1.00 103.23 7 NE2 GLN A 219 54.359 67.414 90.809 1.00 89.35 8 C GLN A 219 53.058 67.823 96.033 1.00 82.67 9 O GLN A 219 52.107 67.093 96.511 1.00 79.24 10 N LEU A 220 52.898 69.094 95.693 1.00 79.24 11 CA LEU A 220 51.820 69.917 96.065 1.00 79.91 12 CB LEU A 220 51.158 69.388 97.282 1.00 80.64 13 CG LEU A 220 49.656 69.547 97.370 1.00 84.65 14 CD1 LEU A 220 48.849 69.361 96.088 1.00 79.69 15 CD2 LEU A 220 49.117 68.499 98.222 1.00 77.73 16 C LEU A 220 52.364 71.275 96.415 1.00 78.44 17 O LEU A 220 52.933 71.867 95.640 1.00 79.65 18 N THR A 221 52.200 71.813 97.579 1.00 80.24 19 CA THR A 221 52.798 73.106 98.039 1.00 74.95 20 CB THR A 221 52.210 74.371 97.456 1.00 75.35 21 OG1 THR A 221 50.852 74.573 97.853 1.00 71.53 22 CG2 THR A 221 52.375 74.405 96.081 1.00 75.02 23 C THR A 221 52.439 73.251 99.482 1.00 73.49 24 O THR A 221 51.715 72.620 99.956 1.00 73.98 25 N ALA A 222 53.115 74.057 100.113 1.00 74.29 26 CA ALA A 222 53.083 74.324 101.434 1.00 73.25 27 CB ALA A 222 54.004 75.789 101.677 1.00 74.00 28 C ALA A 222 51.715 74.696 101.469 1.00 73.19 29 O ALA A 222 50.917 74.126 102.291 1.00 77.41 30 N ALA A 223 51.341 75.731 100.749 1.00 69.56 31 CA ALA A 223 50.011 76.343 100.979 1.00 67.22 32 CB ALA A 223 49.942 77.645 100.030 1.00 67.04 33 C ALA A 223 48.810 75.386 100.549 1.00 62.36 34 O ALA A 223 48.033 74.990 101.401 1.00 72.14 35 N GLN A 224 48.818 74.892 99.343 1.00 57.24 36 CA GLN A 224 47.951 73.815 99.012 1.00 54.17 37 CB GLN A 224 48.281 73.169 97.735 1.00 51.05 38 CG GLN A 224 48.294 74.054 96.470 1.00 53.95 39 CD GLN A 224 48.784 73.339 95.226 1.00 54.65 40 OE1 GLN A 224 49.714 72.333 95.279 1.00 54.13 41 NE2 GLN A 224 48.218 73.688 94.078 1.00 51.29 42 C GLN A 224 47.618 72.858 100.028 1.00 49.42 43 O GLN A 224 46.548 72.535 100.328 1.00 49.40 44 N GLU A 225 48.731 72.445 100.710 1.00 55.66 45 CA GLU A 225 48.574 71.451 101.769 1.00 55.71 46 CB GLU A 225 49.917 70.803 102.206 1.00 50.35 47 CG GLU A 225 49.846 69.389 102.481 1.00 61.55 48 CD GLU A 225 51.273 68.720 102.141 1.00 71.52 49 OE1 GLU A 225 52.220 69.379 101.660 1.00 64.80 50 OE2 GLU A 225 51.344 67.494 102.382 1.00 73.78 51 C GLU A 225 47.701 71.907 102.867 1.00 52.09 52 O GLU A 225 46.781 71.164 103.301 1.00 54.24 53 N LEU A 226 48.006 73.078 103.293 1.00 55.30 54 CA LEU A 226 47.256 73.687 104.375 1.00 63.12 55 CB LEU A 226 48.088 74.929 105.072 1.00 64.83 56 CG LEU A 226 47.422 75.271 106.441 1.00 60.16 57 CD1 LEU A 226 48.170 74.146 107.428 1.00 71.82 58 CD2 LEU A 226 47.731 76.481 106.932 1.00 69.43 59 C LEU A 226 45.854 74.173 103.963 1.00 53.65 60 O LEU A 226 44.871 74.165 104.661 1.00 56.35 61 N MET A 227 45.821 74.622 102.833 1.00 51.57 62 CA MET A 227 44.494 75.143 102.213 1.00 46.46 63 CB MET A 227 44.707 75.666 100.839 1.00 40.11 64 CG MET A 227 43.351 75.935 100.159 1.00 57.58 65 SD MET A 227 43.040 74.836 98.642 1.00 55.13 66 CE MET A 227 43.443 76.156 97.164 1.00 43.97 67 C MET A 227 43.500 73.806 102.197 1.00 46.27 68 O MET A 227 42.314 73.931 102.564 1.00 44.18 69 N ILE A 228 44.026 72.642 101.809 1.00 41.32 70 CA ILE A 228 43.169 71.503 101.779 1.00 46.75 71 CB ILE A 228 43.899 70.245 101.070 1.00 47.57 72 CG1 ILE A 228 43.966 70.644 99.538 1.00 48.88 73 CD1 ILE A 228 44.649 69.699 98.798 1.00 35.69 74 CG2 ILE A 228 43.088 69.008 101.220 1.00 40.13 75 C ILE A 228 42.873 71.002 103.186 1.00 46.79 76 O ILE A 228 41.711 70.652 103.505 1.00 51.05 77 N GLN A 229 43.808 71.198 104.076 1.00 48.96 78 CA GLN A 229 43.612 70.846 105.505 1.00 48.59 79 CB GLN A 229 45.088 71.164 106.354 1.00 53.21 80 CG GLN A 229 45.941 69.894 106.483 1.00 49.89 81 CD GLN A 229 47.568 70.062 106.489 1.00 50.76 82 OE1 GLN A 229 48.046 71.110 106.750 1.00 50.99 83 NE2 GLN A 229 48.206 69.215 105.818 1.00 45.36 84 C GLN A 229 42.663 71.845 106.000 1.00 45.24 85 O GLN A 229 41.754 71.505 106.682 1.00 49.82 86 N GLN A 230 42.798 73.073 105.581 1.00 45.98 87 CA GLN A 230 41.832 74.124 105.936 1.00 47.46 88 CB GLN A 230 42.321 75.354 105.158 1.00 54.17 89 CG GLN A 230 41.872 76.768 105.720 1.00 56.74 90 CD GLN A 230 43.023 77.796 105.391 1.00 62.88 91 OE1 GLN A 230 44.232 77.845 106.181 1.00 62.21 92 NE2 GLN A 230 42.870 78.490 104.372 1.00 49.94 93 C GLN A 230 40.383 73.767 105.479 1.00 45.84 94 O GLN A 230 39.482 73.992 106.224 1.00 50.05 95 N LEU A 231 40.143 73.388 104.196 1.00 40.18 96 CA LEU A 231 38.803 73.117 103.696 1.00 36.97 97 CB LEU A 231 38.847 72.671 102.249 1.00 34.49 98 CG LEU A 231 39.003 73.787 101.287 1.00 39.49 99 CD1 LEU A 231 39.085 73.333 99.955 1.00 32.02 100 CD2 LEU A 231 37.892 74.819 101.569 1.00 38.12 101 C LEU A 231 38.331 71.856 104.456 1.00 39.71 102 O LEU A 231 37.235 71.863 104.897 1.00 36.04 103 N VAL A 232 39.238 70.801 104.575 1.00 37.04 104 CA VAL A 232 38.802 69.651 105.266 1.00 39.92 105 CB VAL A 232 39.767 68.563 105.281 1.00 41.89 106 CG1 VAL A 232 39.460 67.424 106.242 1.00 35.24 107 CG2 VAL A 232 39.789 67.924 103.872 1.00 34.57 108 C VAL A 232 38.425 69.942 106.720 1.00 40.19 109 O VAL A 232 37.240 69.481 107.193 1.00 37.03 110 N ALA A 233 39.056 70.859 107.305 1.00 39.26 111 CA ALA A 233 38.716 71.119 108.791 1.00 40.47 112 CB ALA A 233 40.043 71.949 109.543 1.00 42.60 113 C ALA A 233 37.408 71.881 108.792 1.00 43.83 114 O ALA A 233 36.576 71.750 109.707 1.00 42.76 115 N ALA A 234 37.222 72.791 107.913 1.00 41.01 116 CA ALA A 234 35.966 73.476 107.940 1.00 43.14 117 CB ALA A 234 35.940 74.622 106.955 1.00 36.75 118 C ALA A 234 34.904 72.584 107.775 1.00 43.94 119 O ALA A 234 33.856 72.638 108.338 1.00 46.99 120 N GLN A 235 35.068 71.667 106.881 1.00 47.45 121 CA GLN A 235 34.069 70.721 106.554 1.00 48.08 122 CB GLN A 235 34.546 69.825 105.467 1.00 52.03 123 CG GLN A 235 33.783 68.617 105.047 1.00 53.41 124 CD GLN A 235 34.678 67.450 104.499 1.00 52.47 125 OE1 GLN A 235 34.652 67.038 103.328 1.00 50.48 126 NE2 GLN A 235 35.311 66.792 105.516 1.00 54.98 127 C GLN A 235 33.789 69.936 107.752 1.00 53.30 128 O GLN A 235 32.550 69.602 107.989 1.00 55.90 129 N LEU A 236 34.758 69.511 108.526 1.00 50.61 130 CA LEU A 236 34.344 68.716 109.825 1.00 57.13 131 CB LEU A 236 35.603 68.079 110.441 1.00 57.67 132 CG LEU A 236 35.237 66.766 111.196 1.00 61.22 133 CD1 LEU A 236 34.524 65.745 110.294 1.00 52.82 134 CD2 LEU A 236 36.559 66.177 111.825 1.00 58.45 135 C LEU A 236 33.716 69.546 110.974 1.00 51.69 136 O LEU A 236 32.895 68.997 111.546 1.00 55.63 137 N GLN A 237 34.116 70.794 111.176 1.00 53.41 138 CA GLN A 237 33.573 71.628 112.172 1.00 58.99 139 CB GLN A 237 34.387 72.925 112.344 1.00 61.90 140 CG GLN A 237 34.237 73.820 113.590 1.00 70.99 141 CD GLN A 237 35.116 75.089 113.520 1.00 85.40 142 OE1 GLN A 237 36.371 74.899 113.536 1.00 89.97 143 NE2 GLN A 237 34.525 76.336 113.541 1.00 84.12 144 C GLN A 237 32.156 71.934 111.994 1.00 63.64 145 O GLN A 237 31.394 72.275 112.889 1.00 65.52 146 N CYS A 238 31.808 72.009 110.759 1.00 66.85 147 CA CYS A 238 30.384 72.242 110.386 1.00 70.91 148 CB CYS A 238 30.325 72.710 108.807 1.00 67.17 149 SG CYS A 238 31.327 74.207 108.665 1.00 71.62 150 C CYS A 238 29.541 70.943 110.485 1.00 66.87 151 O CYS A 238 28.518 71.003 110.575 1.00 72.18 152 N ASN A 239 30.100 69.844 110.273 1.00 72.55 153 CA ASN A 239 29.441 68.505 110.351 1.00 79.18 154 CB ASN A 239 30.340 67.296 109.802 1.00 77.58 155 CG ASN A 239 30.400 67.258 108.284 1.00 79.69 156 OD1 ASN A 239 31.077 66.423 107.777 1.00 83.87 157 ND2 ASN A 239 29.573 68.038 107.558 1.00 77.69 158 C ASN A 239 29.003 68.107 111.728 1.00 75.62 159 O ASN A 239 27.914 67.730 111.832 1.00 74.50 160 N LYS A 240 29.869 68.235 112.721 1.00 80.50 161 CA LYS A 240 29.464 67.794 114.144 1.00 86.13 162 CB LYS A 240 30.706 67.336 115.048 1.00 90.30 163 CG LYS A 240 30.231 66.406 116.357 1.00 94.45 164 CD LYS A 240 31.176 66.647 117.471 1.00 99.51 165 CE LYS A 240 32.269 65.606 117.395 1.00 114.82 166 NZ LYS A 240 32.562 65.041 115.858 1.00 114.06 167 C LYS A 240 28.644 68.816 114.771 1.00 85.69 168 O LYS A 240 27.964 68.439 115.796 1.00 89.68 169 N ALA A 241 28.677 70.099 114.193 1.00 87.24 170 CA ALA A 241 27.928 71.179 114.681 1.00 87.61 171 CB ALA A 241 28.294 72.335 114.124 1.00 88.25 172 C ALA A 241 26.500 70.745 114.193 1.00 94.00 173 O ALA A 241 25.570 71.490 114.394 1.00 96.99 174 N SER A 242 26.289 69.518 113.629 1.00 96.44 175 CA SER A 242 24.966 69.057 113.224 1.00 94.27 176 CB SER A 242 25.126 68.841 111.704 1.00 100.35 177 OG SER A 242 24.364 69.685 110.752 1.00 93.83 178 C SER A 242 24.649 67.769 113.864 1.00 93.07 179 O SER A 242 23.418 67.451 114.167 1.00 97.73 180 N ALA A 243 25.650 66.945 114.079 1.00 86.82 181 CA ALA A 243 25.374 65.747 114.932 1.00 86.98 182 CB ALA A 243 26.393 64.855 114.994 1.00 82.85 183 C ALA A 243 25.174 66.286 116.424 1.00 88.53 184 O ALA A 243 24.515 65.662 117.261 1.00 89.29 185 N SER A 244 25.886 67.365 116.766 1.00 87.28 186 CA SER A 244 25.885 67.925 118.137 1.00 87.90 187 CB SER A 244 27.031 68.890 118.287 1.00 84.27 188 OG SER A 244 28.220 68.341 117.980 1.00 83.58 189 C SER A 244 24.541 68.719 118.279 1.00 88.50 190 O SER A 244 24.130 68.910 119.279 1.00 88.97 191 N ASP A 245 23.948 69.122 117.150 1.00 88.90 192 CA ASP A 245 22.774 69.984 116.979 1.00 90.49 193 CB ASP A 245 22.831 71.363 116.239 1.00 86.09 194 CG ASP A 245 24.065 72.203 116.513 1.00 96.91 195 OD1 ASP A 245 25.050 71.944 117.405 1.00 111.52 196 OD2 ASP A 245 24.146 73.306 115.856 1.00 104.66 197 C ASP A 245 21.813 69.325 116.144 1.00 91.23 198 O ASP A 245 20.894 70.003 115.611 1.00 90.41 199 N GLN A 246 21.951 67.987 116.053 1.00 94.12 200 CA GLN A 246 20.851 67.266 115.352 1.00 94.06 201 CB GLN A 246 21.208 65.780 115.151 1.00 91.22 202 CG GLN A 246 19.998 65.123 114.700 1.00 87.58 203 CD GLN A 246 19.410 65.721 113.431 1.00 91.60 204 OE1 GLN A 246 20.212 66.018 112.476 1.00 98.62 205 NE2 GLN A 246 18.059 65.907 113.362 1.00 85.44 206 C GLN A 246 19.547 67.427 116.192 1.00 96.50 207 O GLN A 246 18.568 66.700 115.794 1.00 99.52 208 N PRO A 247 19.436 68.354 117.319 1.00 99.12 209 CA PRO A 247 18.094 68.308 117.993 1.00 101.73 210 CB PRO A 247 18.370 68.795 119.535 1.00 100.37 211 CG PRO A 247 19.989 69.087 119.532 1.00 96.35 212 CD PRO A 247 20.260 69.364 118.087 1.00 97.58 213 C PRO A 247 17.010 69.133 117.063 1.00 99.53 214 O PRO A 247 17.355 69.673 115.984 1.00 99.61 215 N LYS A 248 15.765 69.119 117.599 1.00 97.51 216 CA LYS A 248 14.676 69.814 117.113 1.00 91.20 217 CB LYS A 248 15.054 71.316 117.046 1.00 94.85 218 CG LYS A 248 16.592 71.766 116.943 1.00 97.98 219 CD LYS A 248 16.733 73.049 117.751 1.00 97.99 220 CE LYS A 248 16.110 72.909 119.070 1.00 86.59 221 NZ LYS A 248 17.446 72.996 119.902 1.00 101.33 222 C LYS A 248 14.035 69.257 115.840 1.00 85.99 223 O LYS A 248 13.563 70.079 115.076 1.00 87.81 224 N VAL A 249 13.806 67.947 115.695 1.00 78.52 225 CA VAL A 249 13.169 67.528 114.477 1.00 73.17 226 CB VAL A 249 14.142 66.871 113.498 1.00 73.37 227 CG1 VAL A 249 14.618 65.525 114.094 1.00 79.27 228 CG2 VAL A 249 13.499 66.651 112.317 1.00 70.29 229 C VAL A 249 11.941 66.663 114.641 1.00 73.94 230 O VAL A 249 11.781 65.828 115.543 1.00 67.47 231 N THR A 250 11.036 66.879 113.685 1.00 75.15 232 CA THR A 250 9.765 66.196 113.495 1.00 68.88 233 CB THR A 250 8.903 66.734 112.251 1.00 62.96 234 OG1 THR A 250 8.354 67.933 112.477 1.00 59.52 235 CG2 THR A 250 7.735 65.788 111.930 1.00 67.09 236 C THR A 250 10.091 64.666 113.423 1.00 71.32 237 O THR A 250 10.778 64.237 112.642 1.00 72.94 238 N PRO A 251 9.483 63.858 114.238 1.00 74.41 239 CA PRO A 251 9.750 62.512 114.198 1.00 72.78 240 CB PRO A 251 9.052 62.108 115.505 1.00 72.73 241 CG PRO A 251 8.954 63.316 116.364 1.00 69.09 242 CD PRO A 251 8.519 64.152 115.411 1.00 71.69 243 C PRO A 251 9.001 61.917 113.044 1.00 77.05 244 O PRO A 251 7.996 62.327 112.468 1.00 79.06 245 N TRP A 252 9.579 60.819 112.659 1.00 75.63 246 CA TRP A 252 9.071 60.047 111.528 1.00 76.35 247 CB TRP A 252 10.425 59.392 110.932 1.00 70.22 248 CG TRP A 252 10.341 58.587 109.881 1.00 55.93 249 CD1 TRP A 252 10.066 57.235 109.857 1.00 65.14 250 NE1 TRP A 252 10.031 56.722 108.564 1.00 61.03 251 CE2 TRP A 252 10.278 57.810 107.707 1.00 58.03 252 CD2 TRP A 252 10.462 58.969 108.498 1.00 54.59 253 CE3 TRP A 252 10.596 60.178 107.878 1.00 51.44 254 CZ3 TRP A 252 10.557 60.237 106.538 1.00 55.11 255 CH2 TRP A 252 10.407 59.050 105.787 1.00 57.74 256 CZ2 TRP A 252 10.237 57.844 106.405 1.00 57.19 257 C TRP A 252 8.133 58.878 112.057 1.00 78.02 258 O TRP A 252 8.477 58.241 113.199 1.00 80.22 259 N PRO A 253 7.117 58.530 111.261 1.00 79.55 260 CA PRO A 253 6.089 57.490 111.359 1.00 81.01 261 CB PRO A 253 5.541 57.495 109.968 1.00 77.67 262 CG PRO A 253 6.227 58.502 109.284 1.00 83.93 263 CD PRO A 253 6.718 59.510 110.314 1.00 82.51 264 C PRO A 253 6.428 55.966 111.829 1.00 88.29 265 O PRO A 253 7.520 55.359 111.483 1.00 94.15 266 N ALA A 254 5.573 55.304 112.625 1.00 89.95 267 CA ALA A 254 5.653 53.907 112.956 1.00 89.10 268 CB ALA A 254 4.547 53.743 113.813 1.00 92.19 269 C ALA A 254 5.330 53.237 111.636 1.00 92.55 270 O ALA A 254 5.413 51.940 111.550 1.00 89.38 271 N GLY A 255 4.897 54.159 110.611 1.00 93.89 272 CA GLY A 255 4.572 53.948 109.170 1.00 94.59 273 C GLY A 255 3.390 53.131 108.738 1.00 96.06 274 O GLY A 255 3.756 52.461 107.673 1.00 88.95 275 OXT GLY A 255 2.282 53.352 109.541 1.00 100.39 276 N GLN A 259 −0.551 53.657 105.997 1.00 100.98 277 CA GLN A 259 −0.692 54.510 104.638 1.00 101.82 278 CB GLN A 259 −1.095 53.722 103.374 1.00 103.68 279 CG GLN A 259 −0.017 52.868 102.666 1.00 102.32 280 CD GLN A 259 −0.108 51.348 102.981 1.00 109.86 281 OE1 GLN A 259 −0.298 50.854 104.208 1.00 111.68 282 NE2 GLN A 259 −0.018 50.545 101.859 1.00 111.42 283 C GLN A 259 −1.796 55.517 104.748 1.00 101.08 284 O GLN A 259 −2.998 55.218 104.317 1.00 102.37 285 N SER A 260 −1.436 56.680 105.356 1.00 97.79 286 CA SER A 260 −2.368 57.733 105.632 1.00 92.33 287 CB SER A 260 −2.273 57.895 107.119 1.00 92.61 288 OG SER A 260 −1.724 59.173 107.506 1.00 78.41 289 C SER A 260 −2.091 59.051 104.948 1.00 95.05 290 O SER A 260 −1.459 59.094 103.938 1.00 99.90 291 N ARG A 261 −2.519 60.156 105.517 1.00 94.75 292 CA ARG A 261 −2.360 61.518 104.997 1.00 93.13 293 CB ARG A 261 −3.737 62.062 104.724 1.00 94.35 294 CG ARG A 261 −4.900 61.003 105.277 1.00 101.94 295 CD ARG A 261 −6.376 61.721 105.522 1.00 101.64 296 NE ARG A 261 −6.597 62.608 104.359 1.00 104.47 297 CZ ARG A 261 −7.787 63.041 104.006 1.00 101.15 298 NH1 ARG A 261 −8.781 62.772 104.792 1.00 102.77 299 NH2 ARG A 261 −7.943 63.793 102.950 1.00 94.43 300 C ARG A 261 −1.665 62.476 105.906 1.00 90.89 301 O ARG A 261 −1.034 63.368 105.471 1.00 88.73 302 N ASP A 262 −1.868 62.289 107.191 1.00 90.00 303 CA ASP A 262 −1.239 63.018 108.247 1.00 87.96 304 CB ASP A 262 −1.906 62.624 109.569 1.00 90.25 305 CG ASP A 262 −1.449 63.451 110.915 1.00 98.49 306 OD1 ASP A 262 −0.729 64.514 110.865 1.00 98.82 307 OD2 ASP A 262 −1.884 63.091 112.109 1.00 96.43 308 C ASP A 262 0.289 62.562 108.232 1.00 83.28 309 O ASP A 262 1.166 63.340 108.472 1.00 79.22 310 N ALA A 263 0.501 61.324 107.911 1.00 79.80 311 CA ALA A 263 1.734 60.758 107.923 1.00 80.97 312 CB ALA A 263 1.643 59.237 107.933 1.00 80.93 313 C ALA A 263 2.631 61.323 106.771 1.00 82.33 314 O ALA A 263 3.839 61.747 107.036 1.00 78.28 315 N ARG A 264 1.990 61.404 105.605 1.00 81.80 316 CA ARG A 264 2.549 62.024 104.495 1.00 80.25 317 CB ARG A 264 1.761 61.997 103.248 1.00 78.27 318 CG ARG A 264 2.546 62.624 102.058 1.00 86.83 319 CD ARG A 264 2.165 62.205 100.699 1.00 85.55 320 NE ARG A 264 0.897 62.764 100.331 1.00 98.12 321 CZ ARG A 264 0.405 62.740 99.061 1.00 105.97 322 NH1 ARG A 264 1.140 62.255 98.026 1.00 97.67 323 NH2 ARG A 264 −0.870 63.206 98.822 1.00 112.57 324 C ARG A 264 3.147 63.361 104.847 1.00 81.58 325 O ARG A 264 4.483 63.647 104.638 1.00 83.41 326 N GLN A 265 2.342 64.122 105.517 1.00 79.93 327 CA GLN A 265 2.863 65.499 105.847 1.00 81.17 328 CB GLN A 265 1.635 66.454 106.366 1.00 76.97 329 CG GLN A 265 2.165 68.042 106.549 1.00 74.71 330 CD GLN A 265 2.449 68.677 105.089 1.00 84.93 331 OE1 GLN A 265 2.513 67.904 104.022 1.00 92.74 332 NE2 GLN A 265 2.537 69.964 104.979 1.00 82.66 333 C GLN A 265 4.059 65.441 106.811 1.00 73.92 334 O GLN A 265 4.932 66.164 106.657 1.00 70.94 335 N GLN A 266 3.929 64.519 107.799 1.00 73.59 336 CA GLN A 266 4.927 64.390 108.780 1.00 75.99 337 CB GLN A 266 4.713 63.205 109.660 1.00 78.43 338 CG GLN A 266 3.870 63.514 110.967 1.00 90.20 339 CD GLN A 266 3.961 62.361 111.974 1.00 95.67 340 OE1 GLN A 266 5.119 62.116 112.694 1.00 93.72 341 NE2 GLN A 266 2.764 61.670 112.138 1.00 85.07 342 C GLN A 266 6.389 64.303 108.113 1.00 72.79 343 O GLN A 266 7.354 64.959 108.523 1.00 68.40 344 N ARG A 267 6.500 63.418 107.183 1.00 71.03 345 CA ARG A 267 7.795 63.115 106.615 1.00 69.36 346 CB ARG A 267 7.878 61.736 106.087 1.00 68.79 347 CG ARG A 267 6.764 61.073 105.456 1.00 70.16 348 CD ARG A 267 6.749 59.637 105.649 1.00 68.84 349 NE ARG A 267 5.458 59.074 105.072 1.00 95.99 350 CZ ARG A 267 4.611 58.178 105.644 1.00 81.18 351 NH1 ARG A 267 4.908 57.599 106.858 1.00 69.37 352 NH2 ARG A 267 3.576 57.980 104.906 1.00 79.08 353 C ARG A 267 8.188 64.191 105.527 1.00 67.58 354 O ARG A 267 9.252 64.618 105.548 1.00 62.90 355 N PHE A 268 7.281 64.706 104.844 1.00 60.14 356 CA PHE A 268 7.581 65.759 104.173 1.00 57.88 357 CB PHE A 268 6.506 66.256 103.170 1.00 58.70 358 CG PHE A 268 6.780 67.668 102.543 1.00 58.81 359 CD1 PHE A 268 6.475 68.803 103.236 1.00 55.39 360 CE1 PHE A 268 6.467 70.043 102.736 1.00 53.30 361 CZ PHE A 268 7.111 70.158 101.441 1.00 62.89 362 CE2 PHE A 268 7.479 69.081 100.800 1.00 62.35 363 CD2 PHE A 268 7.290 67.757 101.374 1.00 58.36 364 C PHE A 268 8.190 66.807 104.855 1.00 57.70 365 O PHE A 268 9.280 67.425 104.500 1.00 58.64 366 N ALA A 269 7.596 67.091 105.887 1.00 56.07 367 CA ALA A 269 8.134 68.161 106.730 1.00 51.01 368 CB ALA A 269 6.867 68.463 107.890 1.00 55.80 369 C ALA A 269 9.366 67.877 107.323 1.00 44.97 370 O ALA A 269 10.056 68.732 107.752 1.00 46.96 371 N HIS A 270 9.506 66.632 107.587 1.00 45.75 372 CA HIS A 270 10.624 65.965 108.205 1.00 45.27 373 CB HIS A 270 10.428 64.358 108.271 1.00 39.46 374 CG HIS A 270 11.596 63.579 108.555 1.00 41.35 375 ND1 HIS A 270 12.016 63.285 109.849 1.00 52.22 376 CE1 HIS A 270 13.145 62.576 109.839 1.00 44.10 377 NE2 HIS A 270 13.506 62.476 108.575 1.00 45.77 378 CD2 HIS A 270 12.575 63.037 107.702 1.00 40.47 379 C HIS A 270 11.888 66.365 107.194 1.00 43.21 380 O HIS A 270 12.903 66.708 107.731 1.00 42.38 381 N PHE A 271 11.673 66.108 105.982 1.00 39.83 382 CA PHE A 271 12.588 66.267 104.971 1.00 49.60 383 CB PHE A 271 12.108 65.888 103.577 1.00 41.02 384 CG PHE A 271 12.208 64.333 103.457 1.00 45.71 385 CD1 PHE A 271 13.357 63.618 103.931 1.00 46.76 386 CE1 PHE A 271 13.520 62.289 103.766 1.00 45.86 387 CZ PHE A 271 12.552 61.512 103.235 1.00 52.48 388 CE2 PHE A 271 11.341 62.249 102.795 1.00 53.70 389 CD2 PHE A 271 11.333 63.686 102.941 1.00 51.87 390 C PHE A 271 13.106 67.901 104.921 1.00 55.37 391 O PHE A 271 14.338 68.174 104.794 1.00 43.89 392 N THR A 272 12.028 68.835 104.905 1.00 48.02 393 CA THR A 272 12.280 70.108 104.829 1.00 46.08 394 CB THR A 272 11.040 70.934 104.818 1.00 49.72 395 OG1 THR A 272 10.377 70.754 106.059 1.00 61.56 396 CG2 THR A 272 10.155 70.798 103.621 1.00 46.29 397 C THR A 272 13.104 70.535 106.046 1.00 48.09 398 O THR A 272 14.062 71.485 105.902 1.00 46.74 399 N GLU A 273 12.921 69.900 107.131 1.00 43.20 400 CA GLU A 273 13.665 70.298 108.300 1.00 45.93 401 CB GLU A 273 12.995 69.744 109.651 1.00 41.12 402 CG GLU A 273 11.618 70.435 109.957 1.00 51.85 403 CD GLU A 273 10.548 69.697 110.822 1.00 57.32 404 OE1 GLU A 273 9.213 69.838 110.486 1.00 59.67 405 OE2 GLU A 273 10.992 68.926 111.572 1.00 54.48 406 C GLU A 273 15.116 69.827 108.243 1.00 45.61 407 O GLU A 273 16.031 70.436 108.840 1.00 44.13 408 N LEU A 274 15.279 68.724 107.592 1.00 43.53 409 CA LEU A 274 16.710 68.181 107.376 1.00 46.73 410 CB LEU A 274 16.702 66.703 106.832 1.00 44.16 411 CG LEU A 274 16.085 65.666 107.751 1.00 47.12 412 CD1 LEU A 274 16.213 64.321 107.207 1.00 49.05 413 CD2 LEU A 274 16.793 65.661 109.189 1.00 53.81 414 C LEU A 274 17.380 69.082 106.296 1.00 37.65 415 O LEU A 274 18.559 69.429 106.475 1.00 40.99 416 N ALA A 275 16.651 69.567 105.389 1.00 36.60 417 CA ALA A 275 17.202 70.457 104.430 1.00 38.52 418 CB ALA A 275 16.224 70.659 103.268 1.00 39.37 419 C ALA A 275 17.691 71.778 105.001 1.00 40.85 420 O ALA A 275 18.752 72.357 104.671 1.00 38.61 421 N ILE A 276 16.877 72.342 105.919 1.00 42.17 422 CA ILE A 276 17.186 73.531 106.488 1.00 40.42 423 CB ILE A 276 15.979 73.854 107.589 1.00 44.47 424 CG1 ILE A 276 14.852 74.498 106.855 1.00 39.46 425 CD1 ILE A 276 13.541 74.531 107.865 1.00 41.41 426 CG2 ILE A 276 16.526 74.936 108.670 1.00 35.38 427 C ILE A 276 18.506 73.478 107.236 1.00 37.69 428 O ILE A 276 19.269 74.309 107.080 1.00 38.14 429 N ILE A 277 18.699 72.477 108.088 1.00 38.21 430 CA ILE A 277 19.862 72.336 108.757 1.00 39.69 431 CB ILE A 277 19.902 71.185 109.703 1.00 39.90 432 CG1 ILE A 277 20.708 70.218 109.290 1.00 48.55 433 CD1 ILE A 277 22.031 70.004 110.001 1.00 41.91 434 CG2 ILE A 277 18.381 70.692 110.105 1.00 40.45 435 C ILE A 277 21.048 72.223 107.854 1.00 42.32 436 O ILE A 277 22.135 72.732 108.134 1.00 43.22 437 N SER A 278 20.826 71.625 106.662 1.00 40.01 438 CA SER A 278 21.900 71.440 105.603 1.00 40.22 439 CB SER A 278 21.478 70.430 104.608 1.00 42.15 440 OG SER A 278 22.347 70.093 103.788 1.00 45.60 441 C SER A 278 22.213 72.786 104.954 1.00 39.58 442 O SER A 278 23.334 73.158 104.791 1.00 36.14 443 N VAL A 279 21.143 73.566 104.698 1.00 39.92 444 CA VAL A 279 21.339 74.810 104.187 1.00 38.47 445 CB VAL A 279 20.056 75.584 104.049 1.00 39.82 446 CG1 VAL A 279 20.358 77.235 103.798 1.00 35.21 447 CG2 VAL A 279 19.247 75.129 102.844 1.00 34.92 448 C VAL A 279 22.329 75.561 105.095 1.00 45.22 449 O VAL A 279 23.125 76.471 104.647 1.00 42.04 450 N GLN A 280 22.150 75.400 106.392 1.00 45.82 451 CA GLN A 280 22.964 76.151 107.344 1.00 46.04 452 CB GLN A 280 22.405 76.092 108.992 1.00 55.38 453 CG GLN A 280 21.139 76.574 109.143 1.00 62.18 454 CD GLN A 280 20.329 75.819 110.251 1.00 68.24 455 OE1 GLN A 280 19.182 75.919 110.230 1.00 72.94 456 NE2 GLN A 280 21.036 74.983 111.202 1.00 81.56 457 C GLN A 280 24.316 75.708 107.475 1.00 38.58 458 O GLN A 280 25.206 76.572 107.578 1.00 42.13 459 N GLU A 281 24.507 74.458 107.521 1.00 35.85 460 CA GLU A 281 25.926 73.894 107.421 1.00 35.48 461 CB GLU A 281 25.783 72.340 107.247 1.00 49.21 462 CG GLU A 281 27.013 71.521 107.283 1.00 46.94 463 CD GLU A 281 26.679 70.045 107.345 1.00 55.11 464 OE1 GLU A 281 27.566 69.080 107.089 1.00 62.34 465 OE2 GLU A 281 25.561 69.778 107.501 1.00 54.34 466 C GLU A 281 26.557 74.462 106.211 1.00 36.88 467 O GLU A 281 27.705 75.002 106.324 1.00 40.12 468 N ILE A 282 25.873 74.468 105.032 1.00 32.93 469 CA ILE A 282 26.483 74.937 103.824 1.00 37.10 470 CB ILE A 282 25.563 74.673 102.623 1.00 36.60 471 CG1 ILE A 282 25.542 73.172 102.424 1.00 33.12 472 CD1 ILE A 282 24.398 72.648 101.607 1.00 28.41 473 CG2 ILE A 282 26.058 75.501 101.462 1.00 34.63 474 C ILE A 282 26.812 76.328 103.903 1.00 36.22 475 O ILE A 282 27.931 76.779 103.498 1.00 35.64 476 N VAL A 283 25.928 77.183 104.449 1.00 35.19 477 CA VAL A 283 26.314 78.657 104.550 1.00 35.61 478 CB VAL A 283 25.197 79.416 105.251 1.00 49.06 479 CG1 VAL A 283 25.552 80.798 105.622 1.00 41.24 480 CG2 VAL A 283 23.909 79.435 104.238 1.00 38.80 481 C VAL A 283 27.442 78.860 105.564 1.00 41.26 482 O VAL A 283 28.388 79.567 105.271 1.00 41.99 483 N ASP A 284 27.591 77.996 106.639 1.00 38.72 484 CA ASP A 284 28.711 78.049 107.437 1.00 38.65 485 CB ASP A 284 28.573 77.059 108.724 1.00 46.77 486 CG ASP A 284 27.750 77.687 109.857 1.00 55.54 487 OD1 ASP A 284 27.540 78.969 109.916 1.00 60.09 488 OD2 ASP A 284 27.147 76.899 110.567 1.00 63.52 489 C ASP A 284 29.957 77.605 106.801 1.00 39.66 490 O ASP A 284 31.004 78.247 107.049 1.00 39.55 491 N PHE A 285 29.933 76.487 106.050 1.00 34.06 492 CA PHE A 285 31.170 76.046 105.376 1.00 32.16 493 CB PHE A 285 30.800 74.806 104.501 1.00 32.46 494 CG PHE A 285 31.957 74.319 103.589 1.00 35.38 495 CD1 PHE A 285 33.006 73.657 104.233 1.00 35.99 496 CE1 PHE A 285 34.102 73.254 103.450 1.00 31.35 497 CZ PHE A 285 34.040 73.480 101.977 1.00 37.66 498 CE2 PHE A 285 32.990 74.139 101.494 1.00 33.00 499 CD2 PHE A 285 32.024 74.562 102.287 1.00 29.15 500 C PHE A 285 31.637 77.114 104.372 1.00 34.62 501 O PHE A 285 32.781 77.476 104.358 1.00 37.72 502 N ALA A 286 30.745 77.696 103.563 1.00 36.82 503 CA ALA A 286 31.084 78.702 102.552 1.00 36.74 504 CB ALA A 286 29.775 79.238 101.842 1.00 29.00 505 C ALA A 286 31.849 79.881 103.085 1.00 36.02 506 O ALA A 286 32.839 80.338 102.523 1.00 33.70 507 N LYS A 287 31.424 80.349 104.251 1.00 39.16 508 CA LYS A 287 32.048 81.465 104.851 1.00 37.96 509 CB LYS A 287 31.225 81.937 106.082 1.00 41.83 510 CG LYS A 287 29.862 82.657 105.722 1.00 45.12 511 CD LYS A 287 29.353 83.213 107.138 1.00 49.61 512 CE LYS A 287 28.172 83.922 106.877 1.00 61.11 513 NZ LYS A 287 27.335 84.148 108.309 1.00 63.99 514 C LYS A 287 33.423 81.108 105.370 1.00 42.47 515 O LYS A 287 34.187 81.974 105.686 1.00 43.87 516 N GLN A 288 33.785 79.855 105.415 1.00 37.42 517 CA GLN A 288 35.135 79.594 105.830 1.00 38.23 518 CB GLN A 288 35.120 78.300 106.750 1.00 44.53 519 CG GLN A 288 35.041 78.737 108.331 1.00 49.18 520 CD GLN A 288 34.698 77.600 109.135 1.00 64.09 521 OE1 GLN A 288 33.359 77.135 109.051 1.00 67.22 522 NE2 GLN A 288 35.667 76.969 109.849 1.00 52.35 523 C GLN A 288 36.014 79.205 104.588 1.00 41.53 524 O GLN A 288 37.165 78.881 104.710 1.00 37.36 525 N VAL A 289 35.399 79.288 103.371 1.00 37.03 526 CA VAL A 289 36.199 79.035 102.188 1.00 35.20 527 CB VAL A 289 35.351 78.477 101.018 1.00 34.98 528 CG1 VAL A 289 36.061 78.437 99.707 1.00 27.92 529 CG2 VAL A 289 34.811 77.046 101.400 1.00 23.48 530 C VAL A 289 36.982 80.255 101.840 1.00 34.92 531 O VAL A 289 36.453 81.265 101.702 1.00 36.02 532 N PRO A 290 38.322 80.172 101.764 1.00 37.23 533 CA PRO A 290 39.182 81.368 101.488 1.00 37.79 534 CB PRO A 290 40.557 80.827 101.405 1.00 33.46 535 CG PRO A 290 40.570 79.722 102.556 1.00 33.40 536 CD PRO A 290 39.192 78.974 102.164 1.00 34.43 537 C PRO A 290 38.794 82.090 100.251 1.00 38.43 538 O PRO A 290 38.684 81.423 99.169 1.00 41.81 539 N GLY A 291 38.546 83.337 100.306 1.00 35.20 540 CA GLY A 291 38.177 84.204 99.153 1.00 32.43 541 C GLY A 291 36.583 84.456 99.134 1.00 34.08 542 O GLY A 291 36.164 85.491 98.633 1.00 34.21 543 N PHE A 292 35.783 83.615 99.677 1.00 30.18 544 CA PHE A 292 34.369 83.906 99.628 1.00 32.64 545 CB PHE A 292 33.584 82.739 100.290 1.00 29.03 546 CG PHE A 292 32.075 82.790 100.082 1.00 30.95 547 CD1 PHE A 292 31.467 82.417 98.840 1.00 29.16 548 CE1 PHE A 292 30.172 82.389 98.678 1.00 29.51 549 CZ PHE A 292 29.187 82.781 99.831 1.00 29.82 550 CE2 PHE A 292 29.833 83.315 100.964 1.00 23.75 551 CD2 PHE A 292 31.206 83.313 101.160 1.00 26.41 552 C PHE A 292 33.957 85.205 100.213 1.00 36.18 553 O PHE A 292 32.977 85.823 99.748 1.00 37.86 554 N LEU A 293 34.587 85.654 101.303 1.00 41.21 555 CA LEU A 293 34.198 86.932 102.011 1.00 41.20 556 CB LEU A 293 34.586 86.881 103.397 1.00 39.17 557 CG LEU A 293 33.915 85.823 104.283 1.00 39.38 558 CD1 LEU A 293 34.284 85.790 105.797 1.00 38.40 559 CD2 LEU A 293 32.322 86.131 104.340 1.00 40.30 560 C LEU A 293 34.802 88.115 101.349 1.00 42.23 561 O LEU A 293 34.300 89.237 101.556 1.00 41.57 562 N GLN A 294 35.665 87.896 100.338 1.00 38.50 563 CA GLN A 294 36.202 89.108 99.660 1.00 38.07 564 CB GLN A 294 37.558 88.679 98.896 1.00 43.74 565 CG GLN A 294 38.741 88.503 99.899 1.00 45.87 566 CD GLN A 294 39.847 87.812 99.200 1.00 57.56 567 OE1 GLN A 294 40.862 87.334 99.953 1.00 71.17 568 NE2 GLN A 294 39.921 87.843 97.758 1.00 55.46 569 C GLN A 294 35.258 89.437 98.561 1.00 38.66 570 O GLN A 294 35.466 90.400 97.831 1.00 38.79 571 N LEU A 295 34.155 88.691 98.405 1.00 36.89 572 CA LEU A 295 33.103 89.116 97.416 1.00 31.31 573 CB LEU A 295 32.445 87.883 96.889 1.00 28.74 574 CG LEU A 295 33.323 87.020 95.927 1.00 29.80 575 CD1 LEU A 295 32.637 85.475 95.793 1.00 25.37 576 CD2 LEU A 295 33.453 87.750 94.464 1.00 22.18 577 C LEU A 295 32.165 89.985 98.121 1.00 30.65 578 O LEU A 295 31.913 89.837 99.395 1.00 30.96 579 N GLY A 296 31.419 90.721 97.364 1.00 33.64 580 CA GLY A 296 30.282 91.558 97.960 1.00 34.26 581 C GLY A 296 29.253 90.658 98.472 1.00 38.96 582 O GLY A 296 29.183 89.442 98.088 1.00 33.27 583 N ARG A 297 28.330 91.197 99.373 1.00 36.07 584 CA ARG A 297 27.400 90.404 99.968 1.00 31.87 585 CB ARG A 297 26.541 91.369 100.901 1.00 41.49 586 CG ARG A 297 25.152 90.646 101.517 1.00 42.67 587 CD ARG A 297 24.353 91.552 102.368 1.00 57.56 588 NE ARG A 297 22.938 91.051 102.888 1.00 57.97 589 CZ ARG A 297 22.911 89.948 103.622 1.00 60.51 590 NH1 ARG A 297 24.123 89.340 103.925 1.00 56.84 591 NH2 ARG A 297 21.759 89.300 103.920 1.00 51.82 592 C ARG A 297 26.495 89.884 98.843 1.00 31.57 593 O ARG A 297 25.980 88.825 98.896 1.00 32.83 594 N GLU A 298 26.102 90.797 97.920 1.00 34.95 595 CA GLU A 298 25.254 90.424 96.907 1.00 31.54 596 CB GLU A 298 25.098 91.508 95.814 1.00 36.90 597 CG GLU A 298 24.397 92.795 96.272 1.00 49.73 598 CD GLU A 298 25.378 93.783 97.000 1.00 47.92 599 OE1 GLU A 298 26.530 93.382 97.482 1.00 41.29 600 OE2 GLU A 298 24.864 94.893 97.235 1.00 51.31 601 C GLU A 298 25.800 89.071 96.190 1.00 27.71 602 O GLU A 298 25.030 88.123 96.026 1.00 24.56 603 N ASP A 299 26.978 89.108 95.749 1.00 27.21 604 CA ASP A 299 27.557 87.886 95.122 1.00 29.51 605 CB ASP A 299 28.912 88.174 94.507 1.00 27.66 606 CG ASP A 299 28.756 88.835 93.084 1.00 27.40 607 OD1 ASP A 299 27.657 89.010 92.621 1.00 25.56 608 OD2 ASP A 299 29.783 89.143 92.441 1.00 30.55 609 C ASP A 299 27.588 86.627 96.040 1.00 29.89 610 O ASP A 299 27.284 85.521 95.579 1.00 32.13 611 N GLN A 300 27.798 86.770 97.355 1.00 28.64 612 CA GLN A 300 27.835 85.720 98.203 1.00 32.43 613 CB GLN A 300 28.239 86.128 99.711 1.00 28.61 614 CG GLN A 300 29.593 86.674 99.827 1.00 32.36 615 CD GLN A 300 29.871 87.335 101.248 1.00 32.93 616 OE1 GLN A 300 30.740 88.124 101.345 1.00 35.53 617 NE2 GLN A 300 29.140 87.059 102.102 1.00 29.24 618 C GLN A 300 26.507 85.010 98.138 1.00 30.55 619 O GLN A 300 26.410 83.784 98.174 1.00 27.91 620 N ILE A 301 25.542 85.840 98.143 1.00 32.70 621 CA ILE A 301 24.073 85.277 98.165 1.00 31.27 622 CB ILE A 301 23.059 86.481 98.415 1.00 33.15 623 CG1 ILE A 301 23.331 86.954 99.914 1.00 35.57 624 CD1 ILE A 301 22.305 88.193 100.298 1.00 30.35 625 CG2 ILE A 301 21.623 86.044 98.089 1.00 28.70 626 C ILE A 301 23.748 84.676 96.805 1.00 28.75 627 O ILE A 301 23.161 83.620 96.848 1.00 30.67 628 N ALA A 302 24.133 85.241 95.747 1.00 23.83 629 CA ALA A 302 23.746 84.638 94.490 1.00 30.56 630 CB ALA A 302 24.220 85.673 93.221 1.00 25.06 631 C ALA A 302 24.536 83.249 94.217 1.00 28.16 632 O ALA A 302 23.947 82.343 93.852 1.00 27.71 633 N LEU A 303 25.829 83.164 94.593 1.00 29.86 634 CA LEU A 303 26.527 81.954 94.511 1.00 31.92 635 CB LEU A 303 28.070 82.240 94.976 1.00 29.58 636 CG LEU A 303 28.750 83.153 93.983 1.00 31.40 637 CD1 LEU A 303 30.229 83.203 94.524 1.00 31.82 638 CD2 LEU A 303 28.685 82.579 92.531 1.00 24.33 639 C LEU A 303 26.019 80.903 95.445 1.00 30.24 640 O LEU A 303 25.844 79.752 95.063 1.00 33.92 641 N LEU A 304 25.633 81.290 96.655 1.00 31.43 642 CA LEU A 304 25.029 80.237 97.609 1.00 33.42 643 CB LEU A 304 24.984 80.782 98.962 1.00 29.58 644 CG LEU A 304 26.099 80.188 99.959 1.00 41.99 645 CD1 LEU A 304 25.744 78.928 100.571 1.00 43.21 646 CD2 LEU A 304 27.365 79.965 99.309 1.00 38.21 647 C LEU A 304 23.677 79.796 97.146 1.00 32.19 648 O LEU A 304 23.272 78.625 97.289 1.00 28.76 649 N LYS A 305 22.929 80.761 96.577 1.00 28.77 650 CA LYS A 305 21.523 80.408 96.180 1.00 29.45 651 CB LYS A 305 20.926 81.642 95.604 1.00 37.48 652 CG LYS A 305 19.491 81.504 95.045 1.00 42.80 653 CD LYS A 305 18.626 82.867 95.605 1.00 46.29 654 CE LYS A 305 17.714 83.286 94.535 1.00 47.99 655 NZ LYS A 305 16.658 82.418 94.316 1.00 47.49 656 C LYS A 305 21.578 79.366 94.968 1.00 29.76 657 O LYS A 305 20.765 78.372 94.990 1.00 29.63 658 N ALA A 306 22.456 79.535 94.094 1.00 24.49 659 CA ALA A 306 22.503 78.638 92.981 1.00 26.72 660 CB ALA A 306 23.216 79.225 91.740 1.00 17.94 661 C ALA A 306 23.301 77.341 93.404 1.00 27.93 662 O ALA A 306 22.931 76.218 92.857 1.00 28.47 663 N SER A 307 24.185 77.424 94.325 1.00 21.05 664 CA SER A 307 24.864 76.085 94.550 1.00 26.49 665 CB SER A 307 26.459 76.352 94.716 1.00 31.86 666 OG SER A 307 26.747 77.116 95.765 1.00 32.86 667 C SER A 307 24.442 75.252 95.719 1.00 26.76 668 O SER A 307 24.789 74.091 95.779 1.00 25.81 669 N THR A 308 23.483 75.743 96.543 1.00 26.28 670 CA THR A 308 23.022 75.056 97.654 1.00 27.51 671 CB THR A 308 21.941 75.893 98.398 1.00 27.16 672 OG1 THR A 308 22.578 76.918 99.064 1.00 29.21 673 CG2 THR A 308 21.261 74.912 99.449 1.00 17.76 674 C THR A 308 22.485 73.614 97.354 1.00 27.46 675 O THR A 308 22.802 72.648 98.066 1.00 24.75 676 N ILE A 309 21.545 73.538 96.378 1.00 26.93 677 CA ILE A 309 21.043 72.203 96.043 1.00 23.04 678 CB ILE A 309 19.812 72.359 94.990 1.00 26.72 679 CG1 ILE A 309 19.084 70.966 94.795 1.00 23.33 680 CD1 ILE A 309 18.514 70.435 96.105 1.00 23.17 681 CG2 ILE A 309 20.331 72.855 93.642 1.00 21.02 682 C ILE A 309 22.120 71.257 95.486 1.00 23.12 683 O ILE A 309 22.134 70.091 95.714 1.00 26.33 684 N GLU A 310 23.059 71.822 94.742 1.00 27.82 685 CA GLU A 310 24.208 71.093 94.160 1.00 22.59 686 CB GLU A 310 24.850 72.012 93.127 1.00 25.76 687 CG GLU A 310 23.984 72.351 91.953 1.00 26.34 688 CD GLU A 310 24.749 73.174 90.841 1.00 31.59 689 OE1 GLU A 310 25.997 73.129 90.798 1.00 21.67 690 OE2 GLU A 310 24.134 73.847 89.993 1.00 33.55 691 C GLU A 310 25.192 70.623 95.160 1.00 22.68 692 O GLU A 310 25.596 69.488 95.185 1.00 24.16 693 N ILE A 311 25.417 71.433 96.209 1.00 24.92 694 CA ILE A 311 26.276 70.946 97.306 1.00 24.59 695 CB ILE A 311 26.671 72.144 98.161 1.00 27.83 696 CG1 ILE A 311 27.596 73.082 97.376 1.00 27.28 697 CD1 ILE A 311 28.166 74.243 98.165 1.00 28.66 698 CG2 ILE A 311 27.445 71.689 99.477 1.00 24.31 699 C ILE A 311 25.603 69.910 98.096 1.00 26.73 700 O ILE A 311 26.163 68.877 98.518 1.00 25.76 701 N MET A 312 24.243 70.038 98.334 1.00 26.95 702 CA MET A 312 23.519 69.100 99.078 1.00 28.20 703 CB MET A 312 21.963 69.530 99.265 1.00 32.65 704 CG MET A 312 21.777 70.545 100.262 1.00 31.50 705 SD MET A 312 20.124 71.390 99.991 1.00 36.03 706 CE MET A 312 19.206 70.423 100.744 1.00 36.52 707 C MET A 312 23.544 67.684 98.337 1.00 25.43 708 O MET A 312 23.566 66.654 98.953 1.00 25.55 709 N LEU A 313 23.526 67.789 97.024 1.00 21.81 710 CA LEU A 313 23.605 66.542 96.263 1.00 21.12 711 CB LEU A 313 23.324 66.877 94.882 1.00 23.38 712 CG LEU A 313 21.760 67.105 94.603 1.00 25.11 713 CD1 LEU A 313 21.567 67.910 93.299 1.00 19.37 714 CD2 LEU A 313 21.209 65.754 94.499 1.00 27.49 715 C LEU A 313 25.053 65.882 96.420 1.00 20.35 716 O LEU A 313 25.151 64.736 96.646 1.00 19.92 717 N LEU A 314 26.069 66.745 96.347 1.00 24.80 718 CA LEU A 314 27.484 66.236 96.553 1.00 29.84 719 CB LEU A 314 28.457 67.428 96.397 1.00 24.30 720 CG LEU A 314 28.701 67.669 94.866 1.00 24.45 721 CD1 LEU A 314 29.562 69.031 94.743 1.00 29.60 722 CD2 LEU A 314 29.585 66.500 94.195 1.00 25.08 723 C LEU A 314 27.630 65.642 98.007 1.00 26.91 724 O LEU A 314 28.079 64.566 98.118 1.00 27.48 725 N GLU A 315 27.002 66.300 99.021 1.00 27.94 726 CA GLU A 315 27.090 65.741 100.410 1.00 27.46 727 CB GLU A 315 26.703 66.772 101.475 1.00 27.00 728 CG GLU A 315 27.660 67.838 101.618 1.00 35.38 729 CD GLU A 315 28.831 67.348 102.496 1.00 39.57 730 OE1 GLU A 315 28.643 66.362 103.285 1.00 41.14 731 OE2 GLU A 315 29.801 67.943 102.451 1.00 47.59 732 C GLU A 315 26.197 64.509 100.542 1.00 27.37 733 O GLU A 315 26.440 63.633 101.216 1.00 26.90 734 N THR A 316 25.111 64.467 99.789 1.00 29.35 735 CA THR A 316 24.282 63.248 99.855 1.00 25.85 736 CB THR A 316 22.955 63.569 98.999 1.00 25.11 737 OG1 THR A 316 22.209 64.367 99.778 1.00 24.63 738 CG2 THR A 316 22.277 62.300 98.644 1.00 30.27 739 C THR A 316 25.018 62.075 99.152 1.00 23.34 740 O THR A 316 25.182 61.015 99.749 1.00 25.72 741 N ALA A 317 25.713 62.346 97.969 1.00 21.51 742 CA ALA A 317 26.541 61.304 97.400 1.00 22.63 743 CB ALA A 317 27.287 61.849 96.075 1.00 21.57 744 C ALA A 317 27.720 60.896 98.383 1.00 26.32 745 O ALA A 317 27.894 59.724 98.569 1.00 26.21 746 N ARG A 318 28.285 61.849 99.070 1.00 24.26 747 CA ARG A 318 29.334 61.518 99.942 1.00 30.43 748 CB ARG A 318 30.036 62.850 100.434 1.00 28.78 749 CG ARG A 318 31.222 62.420 101.411 1.00 29.03 750 CD ARG A 318 31.994 63.794 101.741 1.00 35.38 751 NE ARG A 318 31.277 64.625 102.652 1.00 35.32 752 CZ ARG A 318 31.590 64.852 103.821 1.00 40.22 753 NH1 ARG A 318 32.773 64.250 104.443 1.00 42.05 754 NH2 ARG A 318 30.874 65.745 104.607 1.00 35.76 755 C ARG A 318 28.952 60.655 101.238 1.00 28.90 756 O ARG A 318 29.701 59.862 101.681 1.00 27.55 757 N ARG A 319 27.819 60.885 101.784 1.00 31.21 758 CA ARG A 319 27.401 60.142 102.999 1.00 27.42 759 CB ARG A 319 26.595 61.181 103.854 1.00 32.16 760 CG ARG A 319 27.289 62.317 104.256 1.00 37.82 761 CD ARG A 319 26.295 63.143 105.099 1.00 49.91 762 NE ARG A 319 26.949 64.323 105.979 1.00 59.32 763 CZ ARG A 319 27.151 65.577 105.576 1.00 60.21 764 NH1 ARG A 319 26.781 66.044 104.383 1.00 63.33 765 NH2 ARG A 319 27.618 66.510 106.498 1.00 67.19 766 C ARG A 319 26.450 58.968 102.592 1.00 28.30 767 O ARG A 319 25.897 58.308 103.478 1.00 31.01 768 N TYR A 320 26.148 58.776 101.300 1.00 26.84 769 CA TYR A 320 25.385 57.621 100.880 1.00 25.78 770 CB TYR A 320 25.175 57.653 99.428 1.00 24.29 771 CG TYR A 320 24.229 56.664 98.812 1.00 25.21 772 CD1 TYR A 320 24.639 55.378 98.426 1.00 20.61 773 CE1 TYR A 320 23.790 54.407 97.720 1.00 25.95 774 CZ TYR A 320 22.248 54.829 97.649 1.00 32.66 775 OH TYR A 320 21.501 53.957 97.050 1.00 24.66 776 CE2 TYR A 320 21.862 56.053 97.976 1.00 21.62 777 CD2 TYR A 320 22.843 57.025 98.602 1.00 26.81 778 C TYR A 320 25.805 56.288 101.364 1.00 26.52 779 O TYR A 320 26.968 55.930 101.180 1.00 28.23 780 N ASN A 321 24.941 55.500 101.837 1.00 25.11 781 CA ASN A 321 25.334 54.099 102.302 1.00 28.42 782 CB ASN A 321 24.383 53.766 103.482 1.00 28.30 783 CG ASN A 321 24.836 52.413 104.120 1.00 31.95 784 OD1 ASN A 321 25.389 51.540 103.415 1.00 31.12 785 ND2 ASN A 321 24.416 52.201 105.316 1.00 35.12 786 C ASN A 321 25.158 53.118 101.168 1.00 26.49 787 O ASN A 321 23.975 52.749 100.848 1.00 27.67 788 N HIS A 322 26.169 52.696 100.586 1.00 25.24 789 CA HIS A 322 26.128 51.761 99.497 1.00 27.12 790 CB HIS A 322 27.525 51.852 98.665 1.00 27.16 791 CG HIS A 322 27.558 53.165 97.858 1.00 29.49 792 ND1 HIS A 322 28.192 54.312 98.266 1.00 31.90 793 CE1 HIS A 322 28.037 55.289 97.434 1.00 26.71 794 NE2 HIS A 322 27.244 54.797 96.472 1.00 32.75 795 CD2 HIS A 322 26.937 53.461 96.704 1.00 26.25 796 C HIS A 322 26.004 50.314 99.969 1.00 31.64 797 O HIS A 322 25.774 49.416 99.115 1.00 32.39 798 N GLU A 323 26.013 50.052 101.259 1.00 27.45 799 CA GLU A 323 25.622 48.676 101.716 1.00 28.04 800 CB GLU A 323 26.154 48.463 103.239 1.00 30.66 801 CG GLU A 323 27.813 48.469 103.350 1.00 32.86 802 CD GLU A 323 28.260 48.311 104.726 1.00 37.39 803 OE1 GLU A 323 27.438 48.232 105.689 1.00 37.69 804 OE2 GLU A 323 29.409 48.392 104.899 1.00 40.31 805 C GLU A 323 24.244 48.515 101.810 1.00 30.19 806 O GLU A 323 23.667 47.456 101.420 1.00 31.86 807 N THR A 324 23.486 49.571 102.143 1.00 32.78 808 CA THR A 324 22.051 49.464 102.260 1.00 29.67 809 CB THR A 324 21.460 50.155 103.526 1.00 33.02 810 OG1 THR A 324 21.978 51.535 103.648 1.00 34.94 811 CG2 THR A 324 21.911 49.410 104.845 1.00 27.84 812 C THR A 324 21.376 50.117 101.095 1.00 34.32 813 O THR A 324 20.207 49.942 100.844 1.00 32.06 814 N GLU A 325 22.216 50.925 100.336 1.00 32.96 815 CA GLU A 325 21.551 51.720 99.197 1.00 30.82 816 CB GLU A 325 20.864 50.794 98.278 1.00 34.24 817 CG GLU A 325 21.772 49.654 97.698 1.00 40.03 818 CD GLU A 325 21.176 49.062 96.382 1.00 31.22 819 OE1 GLU A 325 21.435 49.641 95.380 1.00 32.46 820 OE2 GLU A 325 20.444 48.024 96.426 1.00 36.90 821 C GLU A 325 20.538 52.695 99.759 1.00 29.33 822 O GLU A 325 19.437 52.847 99.261 1.00 28.96 823 N CYS A 326 20.966 53.414 100.806 1.00 28.37 824 CA CYS A 326 20.204 54.402 101.402 1.00 33.99 825 CB CYS A 326 19.736 54.058 102.905 1.00 30.63 826 SG CYS A 326 18.387 52.785 102.879 1.00 37.75 827 C CYS A 326 20.850 55.806 101.400 1.00 33.40 828 O CYS A 326 22.066 55.910 101.595 1.00 29.29 829 N ILE A 327 20.013 56.857 101.324 1.00 30.10 830 CA ILE A 327 20.479 58.168 101.551 1.00 31.08 831 CB ILE A 327 19.648 59.263 100.922 1.00 35.00 832 CG1 ILE A 327 19.922 59.335 99.456 1.00 32.21 833 CD1 ILE A 327 18.984 60.151 98.568 1.00 38.04 834 CG2 ILE A 327 19.824 60.608 101.766 1.00 24.53 835 C ILE A 327 20.560 58.271 103.081 1.00 37.38 836 O ILE A 327 19.615 57.873 103.805 1.00 31.19 837 N THR A 328 21.698 58.782 103.646 1.00 34.91 838 CA THR A 328 21.649 58.850 105.022 1.00 38.61 839 CB THR A 328 22.849 57.874 105.657 1.00 42.84 840 OG1 THR A 328 24.111 58.423 105.337 1.00 47.71 841 CG2 THR A 328 22.794 56.504 105.135 1.00 36.12 842 C THR A 328 22.028 60.302 105.495 1.00 45.59 843 O THR A 328 22.867 60.868 104.936 1.00 47.31 844 N PHE A 329 21.320 60.862 106.490 1.00 45.91 845 CA PHE A 329 21.630 62.013 107.122 1.00 48.86 846 CB PHE A 329 20.374 62.537 107.626 1.00 54.49 847 CG PHE A 329 20.375 64.083 107.850 1.00 57.05 848 CD1 PHE A 329 20.773 64.668 109.142 1.00 58.41 849 CE1 PHE A 329 20.836 65.959 109.330 1.00 53.09 850 CZ PHE A 329 20.472 66.792 108.224 1.00 58.19 851 CE2 PHE A 329 20.006 66.295 107.089 1.00 59.51 852 CD2 PHE A 329 20.038 64.861 106.864 1.00 59.08 853 C PHE A 329 22.544 61.989 108.310 1.00 56.52 854 O PHE A 329 23.478 62.853 108.405 1.00 55.51 855 N LEU A 330 22.599 60.870 109.145 1.00 60.17 856 CA LEU A 330 23.569 60.696 110.259 1.00 60.42 857 CB LEU A 330 22.931 61.142 111.628 1.00 65.77 858 CG LEU A 330 22.352 62.480 111.953 1.00 69.35 859 CD1 LEU A 330 21.234 62.451 113.038 1.00 58.83 860 CD2 LEU A 330 23.379 63.514 112.265 1.00 68.98 861 C LEU A 330 23.585 59.283 110.547 1.00 65.60 862 O LEU A 330 23.434 58.522 109.643 1.00 74.89 863 N LYS A 331 23.914 58.782 111.766 1.00 67.54 864 CA LYS A 331 24.161 57.267 112.064 1.00 65.86 865 CB LYS A 331 24.425 56.954 113.509 1.00 65.68 866 CG LYS A 331 24.386 55.393 113.819 1.00 65.19 867 CD LYS A 331 25.843 54.758 113.844 1.00 71.83 868 CE LYS A 331 25.926 53.704 112.636 1.00 75.49 869 NZ LYS A 331 27.122 52.694 112.810 1.00 69.11 870 C LYS A 331 22.844 56.568 111.679 1.00 68.90 871 O LYS A 331 22.655 55.556 110.771 1.00 73.86 872 N ASP A 332 21.791 57.094 112.183 1.00 65.17 873 CA ASP A 332 20.632 56.645 111.561 1.00 60.60 874 CB ASP A 332 19.713 56.336 112.511 1.00 69.63 875 CG ASP A 332 18.518 56.016 111.882 1.00 75.01 876 OD1 ASP A 332 18.294 54.751 111.433 1.00 71.44 877 OD2 ASP A 332 17.661 57.004 111.855 1.00 81.67 878 C ASP A 332 20.115 57.971 110.877 1.00 62.41 879 O ASP A 332 21.027 58.937 110.472 1.00 59.25 880 N PHE A 333 18.885 57.972 110.615 1.00 55.78 881 CA PHE A 333 18.411 59.028 109.692 1.00 53.49 882 CB PHE A 333 18.841 60.348 110.084 1.00 53.02 883 CG PHE A 333 18.261 60.740 111.480 1.00 65.51 884 CD1 PHE A 333 16.924 61.279 111.645 1.00 60.74 885 CE1 PHE A 333 16.361 61.547 112.836 1.00 64.61 886 CZ PHE A 333 17.014 61.292 114.094 1.00 63.64 887 CE2 PHE A 333 18.384 60.674 113.944 1.00 66.77 888 CD2 PHE A 333 18.945 60.322 112.619 1.00 60.92 889 C PHE A 333 18.817 58.523 108.320 1.00 50.37 890 O PHE A 333 19.720 59.126 107.757 1.00 53.42 891 N THR A 334 18.260 57.449 107.859 1.00 44.86 892 CA THR A 334 18.637 56.862 106.598 1.00 50.38 893 CB THR A 334 19.446 55.608 106.621 1.00 40.77 894 OG1 THR A 334 18.592 54.729 107.063 1.00 49.86 895 CG2 THR A 334 20.279 55.736 107.619 1.00 45.74 896 C THR A 334 17.326 56.680 105.822 1.00 45.06 897 O THR A 334 16.483 56.488 106.505 1.00 42.68 898 N TYR A 335 17.296 56.814 104.413 1.00 38.65 899 CA TYR A 335 16.190 56.725 103.734 1.00 34.67 900 CB TYR A 335 15.626 58.253 103.429 1.00 35.54 901 CG TYR A 335 15.684 59.043 104.542 1.00 36.77 902 CD1 TYR A 335 14.552 58.964 105.658 1.00 44.72 903 CE1 TYR A 335 14.500 59.789 106.758 1.00 36.72 904 CZ TYR A 335 15.590 60.509 107.070 1.00 38.85 905 OH TYR A 335 15.901 61.059 108.257 1.00 43.46 906 CE2 TYR A 335 16.823 60.402 106.209 1.00 48.91 907 CD2 TYR A 335 16.763 59.725 104.854 1.00 38.14 908 C TYR A 335 16.345 56.075 102.417 1.00 37.64 909 O TYR A 335 17.182 56.316 101.689 1.00 36.38 910 N SER A 336 15.301 55.219 102.027 1.00 39.92 911 CA SER A 336 15.232 54.471 100.786 1.00 36.88 912 CB SER A 336 14.536 53.093 101.117 1.00 35.99 913 OG SER A 336 13.154 53.432 101.130 1.00 42.46 914 C SER A 336 14.454 55.251 99.867 1.00 33.88 915 O SER A 336 13.945 56.283 100.248 1.00 37.82 916 N LYS A 337 14.434 54.855 98.650 1.00 41.15 917 CA LYS A 337 13.616 55.428 97.582 1.00 41.23 918 CB LYS A 337 13.529 54.657 96.356 1.00 36.95 919 CG LYS A 337 15.009 54.557 95.596 1.00 45.49 920 CD LYS A 337 14.894 54.356 94.258 1.00 41.74 921 CE LYS A 337 16.307 54.149 93.449 1.00 34.02 922 NZ LYS A 337 16.044 54.036 92.021 1.00 36.78 923 C LYS A 337 12.189 55.459 98.093 1.00 48.52 924 O LYS A 337 11.417 56.559 98.072 1.00 45.96 925 N ASP A 338 11.775 54.388 98.698 1.00 47.64 926 CA ASP A 338 10.467 54.351 99.250 1.00 46.38 927 CB ASP A 338 10.281 52.998 99.993 1.00 53.22 928 CG ASP A 338 8.789 52.612 100.012 1.00 64.06 929 OD1 ASP A 338 8.167 52.411 98.833 1.00 64.38 930 OD2 ASP A 338 8.237 52.624 101.173 1.00 66.10 931 C ASP A 338 10.083 55.401 100.113 1.00 46.94 932 O ASP A 338 8.913 55.975 99.972 1.00 45.82 933 N ASP A 339 10.932 55.731 101.049 1.00 47.85 934 CA ASP A 339 10.713 56.747 101.948 1.00 47.16 935 CB ASP A 339 11.729 56.874 103.045 1.00 49.83 936 CG ASP A 339 11.845 55.620 103.954 1.00 60.04 937 OD1 ASP A 339 10.791 55.173 104.487 1.00 53.48 938 OD2 ASP A 339 13.021 55.140 104.230 1.00 52.58 939 C ASP A 339 10.476 58.146 101.295 1.00 53.26 940 O ASP A 339 9.605 58.969 101.768 1.00 55.83 941 N PHE A 340 11.191 58.416 100.275 1.00 54.63 942 CA PHE A 340 11.047 59.664 99.572 1.00 55.04 943 CB PHE A 340 12.235 59.822 98.583 1.00 48.17 944 CG PHE A 340 13.503 60.320 99.262 1.00 43.47 945 CD1 PHE A 340 13.622 61.684 99.643 1.00 46.40 946 CE1 PHE A 340 14.746 62.234 100.336 1.00 37.14 947 CZ PHE A 340 15.703 61.253 100.757 1.00 43.67 948 CE2 PHE A 340 15.586 59.964 100.282 1.00 40.75 949 CD2 PHE A 340 14.458 59.505 99.639 1.00 39.97 950 C PHE A 340 9.683 59.640 98.977 1.00 57.44 951 O PHE A 340 9.039 60.788 98.918 1.00 60.00 952 N ALA A 341 9.364 58.561 98.326 1.00 52.40 953 CA ALA A 341 8.080 58.384 97.615 1.00 58.89 954 CB ALA A 341 8.005 56.891 97.006 1.00 58.65 955 C ALA A 341 6.931 58.616 98.619 1.00 60.38 956 O ALA A 341 6.067 59.406 98.483 1.00 60.21 957 N ARG A 342 7.087 58.039 99.749 1.00 63.11 958 CA ARG A 342 6.030 58.242 100.768 1.00 64.22 959 CB ARG A 342 6.255 57.371 101.965 1.00 61.32 960 CG ARG A 342 5.973 55.945 102.077 1.00 62.09 961 CD ARG A 342 6.818 55.614 103.454 1.00 75.15 962 NE ARG A 342 6.826 54.231 103.990 1.00 81.85 963 CZ ARG A 342 7.986 53.453 103.861 1.00 90.20 964 NH1 ARG A 342 9.079 53.917 103.227 1.00 76.80 965 NH2 ARG A 342 8.054 52.196 104.362 1.00 94.52 966 C ARG A 342 5.874 59.675 101.260 1.00 65.87 967 O ARG A 342 4.717 60.059 101.953 1.00 60.63 968 N ALA A 343 6.872 60.483 100.965 1.00 60.17 969 CA ALA A 343 6.584 61.826 101.407 1.00 57.27 970 CB ALA A 343 7.909 62.466 101.859 1.00 57.16 971 C ALA A 343 5.916 62.603 100.352 1.00 56.52 972 O ALA A 343 5.756 63.831 100.516 1.00 62.82 973 N GLY A 344 5.628 62.014 99.187 1.00 57.55 974 CA GLY A 344 4.963 62.749 98.095 1.00 57.86 975 C GLY A 344 5.934 63.355 97.042 1.00 65.75 976 O GLY A 344 5.547 64.325 96.335 1.00 66.13 977 N LEU A 345 7.154 62.667 96.692 1.00 62.47 978 CA LEU A 345 7.996 63.147 95.694 1.00 55.91 979 CB LEU A 345 9.295 63.261 96.392 1.00 61.92 980 CG LEU A 345 9.344 63.843 97.823 1.00 68.77 981 CD1 LEU A 345 10.803 63.704 98.515 1.00 68.43 982 CD2 LEU A 345 8.863 65.212 97.921 1.00 59.11 983 C LEU A 345 7.999 62.433 94.515 1.00 49.37 984 O LEU A 345 7.821 61.282 94.442 1.00 53.23 985 N GLN A 346 8.221 63.061 93.411 1.00 53.41 986 CA GLN A 346 8.260 62.430 92.052 1.00 55.12 987 CB GLN A 346 8.620 63.542 90.955 1.00 61.52 988 CG GLN A 346 7.597 64.461 90.620 1.00 71.32 989 CD GLN A 346 8.231 65.855 89.889 1.00 69.01 990 OE1 GLN A 346 9.433 66.147 89.952 1.00 71.20 991 NE2 GLN A 346 7.411 66.614 89.181 1.00 81.10 992 C GLN A 346 9.301 61.292 92.036 1.00 55.12 993 O GLN A 346 10.375 61.517 92.703 1.00 55.52 994 N VAL A 347 9.097 60.428 91.127 1.00 54.09 995 CA VAL A 347 10.096 59.503 90.928 1.00 58.16 996 CB VAL A 347 9.468 58.181 90.310 1.00 58.60 997 CG1 VAL A 347 9.789 58.039 88.819 1.00 61.76 998 CG2 VAL A 347 9.978 57.044 91.036 1.00 60.39 999 C VAL A 347 11.131 60.187 90.012 1.00 55.68 1000 O VAL A 347 12.265 59.797 89.921 1.00 49.89 1001 N GLU A 348 10.736 61.178 89.370 1.00 52.48 1002 CA GLU A 348 11.492 61.768 88.390 1.00 49.37 1003 CB GLU A 348 10.663 62.783 87.401 1.00 49.65 1004 CG GLU A 348 8.990 62.445 87.511 1.00 63.05 1005 CD GLU A 348 8.496 61.453 86.590 1.00 70.49 1006 OE1 GLU A 348 8.720 60.141 86.764 1.00 81.28 1007 OE2 GLU A 348 7.971 61.742 85.393 1.00 83.18 1008 C GLU A 348 12.614 62.639 89.157 1.00 48.56 1009 O GLU A 348 13.661 63.034 88.442 1.00 46.22 1010 N PHE A 349 12.458 62.792 90.386 1.00 41.51 1011 CA PHE A 349 13.435 63.585 91.173 1.00 42.56 1012 CB PHE A 349 12.722 64.383 92.160 1.00 35.26 1013 CG PHE A 349 13.570 64.980 93.173 1.00 38.81 1014 CD1 PHE A 349 14.670 65.775 92.802 1.00 36.08 1015 CE1 PHE A 349 15.522 66.444 93.729 1.00 31.95 1016 CZ PHE A 349 15.393 66.088 95.047 1.00 37.40 1017 CE2 PHE A 349 14.315 65.302 95.471 1.00 38.65 1018 CD2 PHE A 349 13.371 64.784 94.510 1.00 37.78 1019 C PHE A 349 14.222 62.503 92.001 1.00 40.40 1020 O PHE A 349 15.470 62.477 91.940 1.00 40.17 1021 N ILE A 350 13.471 61.555 92.632 1.00 39.12 1022 CA ILE A 350 14.005 60.622 93.405 1.00 43.56 1023 CB ILE A 350 12.895 59.747 93.968 1.00 44.06 1024 CG1 ILE A 350 12.078 60.539 94.821 1.00 42.70 1025 CD1 ILE A 350 10.586 59.645 95.281 1.00 38.43 1026 CG2 ILE A 350 13.427 58.485 94.759 1.00 29.85 1027 C ILE A 350 15.130 59.579 92.719 1.00 38.73 1028 O ILE A 350 16.126 59.294 93.270 1.00 36.16 1029 N ASN A 351 14.715 59.060 91.562 1.00 33.28 1030 CA ASN A 351 15.622 58.280 90.866 1.00 37.86 1031 CB ASN A 351 15.056 57.716 89.573 1.00 33.38 1032 CG ASN A 351 14.137 56.437 89.867 1.00 42.08 1033 OD1 ASN A 351 14.375 55.739 90.755 1.00 42.74 1034 ND2 ASN A 351 13.142 56.144 88.889 1.00 40.71 1035 C ASN A 351 16.949 58.876 90.592 1.00 40.02 1036 O ASN A 351 17.994 58.406 90.937 1.00 36.40 1037 N PRO A 352 16.914 60.098 90.039 1.00 39.55 1038 CA PRO A 352 18.128 60.755 89.704 1.00 38.11 1039 CB PRO A 352 17.756 61.978 88.896 1.00 36.01 1040 CG PRO A 352 16.469 61.625 88.308 1.00 43.28 1041 CD PRO A 352 15.720 60.797 89.589 1.00 37.85 1042 C PRO A 352 19.082 61.164 90.906 1.00 32.74 1043 O PRO A 352 20.306 60.952 90.779 1.00 30.16 1044 N ILE A 353 18.538 61.191 92.104 1.00 31.77 1045 CA ILE A 353 19.448 61.624 93.177 1.00 32.21 1046 CB ILE A 353 18.830 62.379 94.299 1.00 34.16 1047 CG1 ILE A 353 17.761 61.547 95.059 1.00 28.49 1048 CD1 ILE A 353 17.200 62.312 96.280 1.00 25.50 1049 CG2 ILE A 353 18.223 63.880 93.727 1.00 40.63 1050 C ILE A 353 20.110 60.396 93.634 1.00 35.07 1051 O ILE A 353 21.247 60.453 94.107 1.00 33.62 1052 N PHE A 354 19.363 59.302 93.704 1.00 33.04 1053 CA PHE A 354 19.973 57.995 94.111 1.00 37.01 1054 CB PHE A 354 18.983 56.887 94.218 1.00 33.54 1055 CG PHE A 354 18.282 56.918 95.538 1.00 34.07 1056 CD1 PHE A 354 17.298 57.826 95.769 1.00 29.36 1057 CE1 PHE A 354 16.642 57.859 97.051 1.00 32.83 1058 CZ PHE A 354 17.082 56.950 98.051 1.00 35.19 1059 CE2 PHE A 354 18.010 56.095 97.810 1.00 36.74 1060 CD2 PHE A 354 18.653 56.011 96.491 1.00 34.92 1061 C PHE A 354 21.034 57.537 92.983 1.00 36.17 1062 O PHE A 354 22.079 57.025 93.330 1.00 38.46 1063 N GLU A 355 20.729 57.777 91.739 1.00 32.99 1064 CA GLU A 355 21.603 57.570 90.635 1.00 31.95 1065 CB GLU A 355 20.849 57.683 89.349 1.00 30.61 1066 CG GLU A 355 21.238 56.779 88.200 1.00 45.49 1067 CD GLU A 355 21.419 55.196 88.539 1.00 48.90 1068 OE1 GLU A 355 20.531 54.439 89.257 1.00 44.46 1069 OE2 GLU A 355 22.571 54.858 88.301 1.00 47.34 1070 C GLU A 355 22.846 58.352 90.660 1.00 29.03 1071 O GLU A 355 23.939 57.950 90.316 1.00 34.92 1072 N PHE A 356 22.700 59.587 91.085 1.00 29.34 1073 CA PHE A 356 23.879 60.438 91.159 1.00 28.44 1074 CB PHE A 356 23.511 62.025 91.372 1.00 24.84 1075 CG PHE A 356 24.666 62.810 91.513 1.00 26.82 1076 CD1 PHE A 356 25.398 63.241 90.389 1.00 20.56 1077 CE1 PHE A 356 26.417 64.033 90.504 1.00 22.91 1078 CZ PHE A 356 26.735 64.591 91.746 1.00 22.03 1079 CE2 PHE A 356 26.001 64.229 92.833 1.00 24.05 1080 CD2 PHE A 356 24.978 63.331 92.731 1.00 21.52 1081 C PHE A 356 24.779 59.836 92.315 1.00 24.60 1082 O PHE A 356 25.987 59.838 92.144 1.00 26.66 1083 N SER A 357 24.215 59.596 93.391 1.00 20.88 1084 CA SER A 357 25.002 59.033 94.542 1.00 26.21 1085 CB SER A 357 24.087 58.603 95.676 1.00 26.96 1086 OG SER A 357 23.475 59.777 96.266 1.00 35.03 1087 C SER A 357 25.747 57.742 94.006 1.00 27.43 1088 O SER A 357 26.969 57.600 94.360 1.00 26.40 1089 N ARG A 358 25.134 56.946 93.210 1.00 22.54 1090 CA ARG A 358 25.793 55.760 92.607 1.00 28.46 1091 CB ARG A 358 24.843 54.824 91.803 1.00 27.12 1092 CG ARG A 358 23.697 54.269 92.620 1.00 31.43 1093 CD ARG A 358 22.934 53.389 91.651 1.00 33.88 1094 NE ARG A 358 23.872 52.537 91.013 1.00 43.04 1095 CZ ARG A 358 23.589 51.618 89.966 1.00 46.48 1096 NH1 ARG A 358 22.381 51.806 89.350 1.00 41.56 1097 NH2 ARG A 358 24.554 50.764 89.510 1.00 38.99 1098 C ARG A 358 26.993 56.041 91.707 1.00 25.01 1099 O ARG A 358 28.092 55.610 91.893 1.00 29.34 1100 N ALA A 359 26.747 56.925 90.736 1.00 27.15 1101 CA ALA A 359 27.774 57.289 89.826 1.00 25.84 1102 CB ALA A 359 27.068 58.411 88.707 1.00 29.99 1103 C ALA A 359 28.951 58.049 90.486 1.00 28.51 1104 O ALA A 359 30.109 57.815 90.086 1.00 33.57 1105 N MET A 360 28.681 58.972 91.463 1.00 24.05 1106 CA MET A 360 29.724 59.525 92.232 1.00 27.60 1107 CB MET A 360 29.160 60.535 93.321 1.00 23.55 1108 CG MET A 360 28.826 62.038 92.888 1.00 21.34 1109 SD MET A 360 29.972 62.957 91.915 1.00 30.06 1110 CE MET A 360 31.260 63.327 93.225 1.00 27.47 1111 C MET A 360 30.659 58.521 92.938 1.00 26.47 1112 O MET A 360 31.912 58.707 92.962 1.00 24.69 1113 N ARG A 361 30.082 57.533 93.516 1.00 25.42 1114 CA ARG A 361 30.820 56.539 94.212 1.00 27.69 1115 CB ARG A 361 29.893 55.416 94.765 1.00 25.52 1116 CG ARG A 361 30.639 54.373 95.441 1.00 26.92 1117 CD ARG A 361 31.653 54.932 96.590 1.00 30.50 1118 NE ARG A 361 32.360 53.943 97.240 1.00 30.09 1119 CZ ARG A 361 33.541 53.386 96.823 1.00 34.94 1120 NH1 ARG A 361 34.182 53.879 95.769 1.00 27.55 1121 NH2 ARG A 361 34.015 52.393 97.463 1.00 31.71 1122 C ARG A 361 31.817 55.821 93.244 1.00 29.95 1123 O ARG A 361 32.842 55.424 93.659 1.00 32.18 1124 N ARG A 362 31.499 55.806 91.915 1.00 29.17 1125 CA ARG A 362 32.382 55.116 90.952 1.00 32.80 1126 CB ARG A 362 31.749 55.079 89.592 1.00 35.25 1127 CG ARG A 362 30.773 53.820 89.351 1.00 44.57 1128 CD ARG A 362 29.771 53.880 88.402 1.00 41.11 1129 NE ARG A 362 30.318 54.533 87.230 1.00 62.15 1130 CZ ARG A 362 31.219 53.932 86.299 1.00 56.43 1131 NH1 ARG A 362 31.790 52.909 86.664 1.00 76.32 1132 NH2 ARG A 362 31.752 54.433 85.291 1.00 58.84 1133 C ARG A 362 33.715 55.888 90.842 1.00 38.96 1134 O ARG A 362 34.742 55.280 90.453 1.00 34.44 1135 N LEU A 363 33.711 57.213 91.173 1.00 35.42 1136 CA LEU A 363 34.936 57.932 91.121 1.00 33.23 1137 CB LEU A 363 34.569 59.348 90.917 1.00 31.74 1138 CG LEU A 363 33.942 59.767 89.493 1.00 42.89 1139 CD1 LEU A 363 33.687 61.239 89.400 1.00 41.37 1140 CD2 LEU A 363 34.696 59.249 88.506 1.00 40.65 1141 C LEU A 363 35.862 57.697 92.410 1.00 36.34 1142 O LEU A 363 36.930 58.187 92.423 1.00 35.01 1143 N GLY A 364 35.343 57.163 93.426 1.00 32.97 1144 CA GLY A 364 36.041 56.985 94.595 1.00 30.77 1145 C GLY A 364 36.681 58.169 95.246 1.00 35.17 1146 O GLY A 364 37.993 58.033 95.528 1.00 33.06 1147 N LEU A 365 36.021 59.279 95.390 1.00 29.40 1148 CA LEU A 365 36.470 60.445 95.940 1.00 34.74 1149 CB LEU A 365 35.574 61.723 95.760 1.00 29.56 1150 CG LEU A 365 34.993 62.073 94.350 1.00 33.44 1151 CD1 LEU A 365 34.585 63.514 94.294 1.00 34.57 1152 CD2 LEU A 365 35.587 61.702 93.139 1.00 32.84 1153 C LEU A 365 36.716 60.411 97.557 1.00 35.27 1154 O LEU A 365 35.915 59.695 98.275 1.00 33.84 1155 N ASP A 366 37.723 61.044 98.025 1.00 29.59 1156 CA ASP A 366 37.895 61.028 99.465 1.00 31.14 1157 CB ASP A 366 39.394 60.887 99.824 1.00 29.81 1158 CG ASP A 366 40.289 61.840 99.143 1.00 31.81 1159 OD1 ASP A 366 39.942 63.003 98.946 1.00 34.95 1160 OD2 ASP A 366 41.394 61.408 98.737 1.00 39.23 1161 C ASP A 366 37.358 62.467 100.009 1.00 31.45 1162 O ASP A 366 36.950 63.298 99.266 1.00 27.08 1163 N ASP A 367 37.498 62.663 101.256 1.00 31.37 1164 CA ASP A 367 37.091 63.904 101.782 1.00 36.61 1165 CB ASP A 367 37.230 63.889 103.412 1.00 40.07 1166 CG ASP A 367 36.149 62.886 104.022 1.00 46.21 1167 OD1 ASP A 367 34.975 62.558 103.286 1.00 42.09 1168 OD2 ASP A 367 36.222 62.655 105.136 1.00 52.17 1169 C ASP A 367 37.681 65.205 101.248 1.00 35.74 1170 O ASP A 367 36.913 66.240 101.072 1.00 33.99 1171 N ALA A 368 38.844 65.150 100.887 1.00 29.92 1172 CA ALA A 368 39.457 66.373 100.299 1.00 30.49 1173 CB ALA A 368 41.098 66.112 100.092 1.00 26.50 1174 C ALA A 368 38.911 66.620 98.895 1.00 32.62 1175 O ALA A 368 38.829 67.801 98.523 1.00 36.37 1176 N GLU A 369 38.770 65.587 98.066 1.00 24.31 1177 CA GLU A 369 38.356 65.818 96.845 1.00 29.00 1178 CB GLU A 369 38.425 64.483 95.952 1.00 22.95 1179 CG GLU A 369 39.908 64.031 95.886 1.00 28.00 1180 CD GLU A 369 40.112 62.683 95.405 1.00 29.14 1181 OE1 GLU A 369 39.312 61.777 95.939 1.00 27.96 1182 OE2 GLU A 369 40.793 62.490 94.321 1.00 27.55 1183 C GLU A 369 36.897 66.411 96.735 1.00 28.40 1184 O GLU A 369 36.669 67.335 95.974 1.00 27.58 1185 N TYR A 370 36.018 65.878 97.623 1.00 27.68 1186 CA TYR A 370 34.700 66.410 97.861 1.00 25.95 1187 CB TYR A 370 33.971 65.677 98.870 1.00 27.29 1188 CG TYR A 370 33.067 64.500 98.317 1.00 30.67 1189 CD1 TYR A 370 33.375 63.179 98.520 1.00 29.65 1190 CE1 TYR A 370 32.559 62.169 98.044 1.00 24.96 1191 CZ TYR A 370 31.358 62.562 97.199 1.00 31.04 1192 OH TYR A 370 30.639 61.580 96.641 1.00 25.30 1193 CE2 TYR A 370 31.100 63.796 96.963 1.00 22.48 1194 CD2 TYR A 370 31.962 64.824 97.561 1.00 31.26 1195 C TYR A 370 34.743 67.837 98.315 1.00 28.81 1196 O TYR A 370 34.090 68.730 97.663 1.00 30.56 1197 N ALA A 371 35.610 68.180 99.251 1.00 27.51 1198 CA ALA A 371 35.671 69.536 99.783 1.00 22.07 1199 CB ALA A 371 36.645 69.600 101.022 1.00 26.40 1200 C ALA A 371 36.273 70.472 98.666 1.00 26.62 1201 O ALA A 371 35.793 71.530 98.503 1.00 27.10 1202 N LEU A 372 37.245 70.024 97.843 1.00 21.94 1203 CA LEU A 372 37.671 70.868 96.843 1.00 22.33 1204 CB LEU A 372 38.927 70.434 96.173 1.00 24.56 1205 CG LEU A 372 40.214 70.640 97.005 1.00 33.14 1206 CD1 LEU A 372 41.364 69.613 96.489 1.00 25.37 1207 CD2 LEU A 372 40.639 72.052 96.915 1.00 28.88 1208 C LEU A 372 36.621 71.088 95.683 1.00 22.60 1209 O LEU A 372 36.419 72.148 95.215 1.00 21.21 1210 N LEU A 373 35.964 69.974 95.242 1.00 25.15 1211 CA LEU A 373 34.993 70.043 94.214 1.00 22.32 1212 CB LEU A 373 34.404 68.597 94.110 1.00 21.91 1213 CG LEU A 373 33.494 68.425 92.811 1.00 25.88 1214 CD1 LEU A 373 34.350 68.939 91.548 1.00 22.43 1215 CD2 LEU A 373 33.089 66.945 92.660 1.00 18.83 1216 C LEU A 373 33.799 70.997 94.727 1.00 22.27 1217 O LEU A 373 33.235 71.741 93.878 1.00 22.92 1218 N ILE A 374 33.486 70.947 95.954 1.00 23.24 1219 CA ILE A 374 32.401 72.000 96.536 1.00 26.23 1220 CB ILE A 374 32.027 71.571 97.978 1.00 26.40 1221 CG1 ILE A 374 31.146 70.312 97.822 1.00 19.31 1222 CD1 ILE A 374 31.024 69.456 99.267 1.00 21.34 1223 CG2 ILE A 374 31.340 72.723 98.789 1.00 27.79 1224 C ILE A 374 32.924 73.408 96.489 1.00 25.86 1225 O ILE A 374 32.181 74.311 96.098 1.00 27.87 1226 N ALA A 375 34.227 73.650 96.815 1.00 24.08 1227 CA ALA A 375 34.790 75.051 96.714 1.00 25.33 1228 CB ALA A 375 36.278 75.151 97.234 1.00 31.90 1229 C ALA A 375 34.794 75.528 95.206 1.00 23.98 1230 O ALA A 375 34.462 76.633 94.933 1.00 26.40 1231 N ILE A 376 35.055 74.599 94.329 1.00 27.12 1232 CA ILE A 376 35.034 74.829 92.899 1.00 25.21 1233 CB ILE A 376 35.526 73.697 92.149 1.00 19.17 1234 CG1 ILE A 376 37.047 73.693 92.273 1.00 28.94 1235 CD1 ILE A 376 37.715 72.219 91.735 1.00 18.49 1236 CG2 ILE A 376 35.124 73.887 90.612 1.00 21.17 1237 C ILE A 376 33.591 75.176 92.431 1.00 26.62 1238 O ILE A 376 33.341 76.138 91.676 1.00 25.78 1239 N ASN A 377 32.665 74.415 92.956 1.00 26.58 1240 CA ASN A 377 31.236 74.589 92.619 1.00 27.26 1241 CB ASN A 377 30.414 73.465 93.392 1.00 32.12 1242 CG ASN A 377 28.883 73.492 93.003 1.00 33.33 1243 OD1 ASN A 377 28.115 74.333 93.591 1.00 34.73 1244 ND2 ASN A 377 28.480 72.681 92.131 1.00 31.41 1245 C ASN A 377 30.749 75.997 93.101 1.00 26.39 1246 O ASN A 377 30.098 76.708 92.346 1.00 24.60 1247 N ILE A 378 31.087 76.406 94.348 1.00 25.57 1248 CA ILE A 378 30.656 77.638 94.826 1.00 24.33 1249 CB ILE A 378 31.257 77.879 96.311 1.00 30.38 1250 CG1 ILE A 378 30.527 76.965 97.227 1.00 30.50 1251 CD1 ILE A 378 31.339 76.651 98.576 1.00 18.81 1252 CG2 ILE A 378 31.030 79.308 96.813 1.00 19.50 1253 C ILE A 378 31.144 78.792 93.969 1.00 25.80 1254 O ILE A 378 30.444 79.712 93.676 1.00 27.73 1255 N PHE A 379 32.372 78.795 93.503 1.00 27.64 1256 CA PHE A 379 32.922 79.862 92.687 1.00 24.14 1257 CB PHE A 379 34.452 80.154 93.022 1.00 22.61 1258 CG PHE A 379 34.733 80.516 94.437 1.00 24.59 1259 CD1 PHE A 379 34.273 81.719 94.913 1.00 27.74 1260 CE1 PHE A 379 34.674 82.266 96.127 1.00 33.61 1261 CZ PHE A 379 35.416 81.502 97.013 1.00 29.32 1262 CE2 PHE A 379 35.768 80.196 96.544 1.00 30.76 1263 CD2 PHE A 379 35.392 79.736 95.228 1.00 24.69 1264 C PHE A 379 32.696 79.763 91.182 1.00 30.53 1265 O PHE A 379 33.645 79.821 90.410 1.00 29.13 1266 N SER A 380 31.440 79.546 90.773 1.00 30.11 1267 CA SER A 380 31.049 79.544 89.382 1.00 28.70 1268 CB SER A 380 29.817 78.524 89.220 1.00 26.20 1269 OG SER A 380 30.267 77.214 89.815 1.00 25.22 1270 C SER A 380 30.583 80.844 88.829 1.00 25.94 1271 O SER A 380 29.671 81.382 89.306 1.00 27.86 1272 N ALA A 381 31.276 81.388 87.882 1.00 27.25 1273 CA ALA A 381 31.065 82.762 87.437 1.00 30.70 1274 CB ALA A 381 32.327 83.282 86.583 1.00 21.62 1275 C ALA A 381 29.755 82.911 86.622 1.00 32.31 1276 O ALA A 381 29.283 84.100 86.469 1.00 32.72 1277 N ASP A 382 29.169 81.863 86.171 1.00 29.52 1278 CA ASP A 382 27.968 81.981 85.348 1.00 30.16 1279 CB ASP A 382 28.024 80.802 84.249 1.00 33.90 1280 CG ASP A 382 27.902 79.417 84.934 1.00 41.16 1281 OD1 ASP A 382 28.184 79.312 86.135 1.00 40.14 1282 OD2 ASP A 382 27.449 78.515 84.394 1.00 50.33 1283 C ASP A 382 26.714 81.896 86.071 1.00 29.28 1284 O ASP A 382 25.666 81.833 85.479 1.00 30.47 1285 N ARG A 383 26.719 81.890 87.432 1.00 30.38 1286 CA ARG A 383 25.421 81.865 88.150 1.00 29.60 1287 CB ARG A 383 25.524 81.737 89.590 1.00 26.12 1288 CG ARG A 383 26.503 80.600 90.063 1.00 28.61 1289 CD ARG A 383 25.857 79.207 89.766 1.00 26.30 1290 NE ARG A 383 26.510 78.102 90.525 1.00 31.33 1291 CZ ARG A 383 26.154 76.823 90.516 1.00 32.37 1292 NH1 ARG A 383 25.111 76.412 89.784 1.00 26.78 1293 NH2 ARG A 383 26.843 76.032 91.264 1.00 30.05 1294 C ARG A 383 24.545 83.243 87.784 1.00 33.32 1295 O ARG A 383 25.139 84.301 87.551 1.00 38.00 1296 N PRO A 384 23.294 83.186 87.907 1.00 30.73 1297 CA PRO A 384 22.488 84.282 87.761 1.00 30.65 1298 CB PRO A 384 21.029 83.750 88.222 1.00 33.93 1299 CG PRO A 384 21.138 82.298 87.555 1.00 30.48 1300 CD PRO A 384 22.567 81.850 88.240 1.00 32.19 1301 C PRO A 384 22.735 85.434 88.723 1.00 28.49 1302 O PRO A 384 23.039 85.198 89.860 1.00 30.52 1303 N ASN A 385 22.779 86.627 88.247 1.00 33.92 1304 CA ASN A 385 22.909 87.850 88.864 1.00 28.88 1305 CB ASN A 385 21.950 87.815 89.956 1.00 39.11 1306 CG ASN A 385 20.556 87.667 89.404 1.00 45.66 1307 OD1 ASN A 385 19.776 86.886 90.011 1.00 44.67 1308 ND2 ASN A 385 20.231 88.327 88.320 1.00 37.49 1309 C ASN A 385 24.411 88.135 89.371 1.00 33.73 1310 O ASN A 385 24.598 89.183 90.049 1.00 36.83 1311 N VAL A 386 25.417 87.246 89.132 1.00 26.72 1312 CA VAL A 386 26.673 87.449 89.532 1.00 29.80 1313 CB VAL A 386 27.690 86.465 88.936 1.00 26.67 1314 CG1 VAL A 386 29.086 86.871 89.073 1.00 29.15 1315 CG2 VAL A 386 27.466 84.936 89.650 1.00 39.65 1316 C VAL A 386 27.173 88.968 89.082 1.00 29.38 1317 O VAL A 386 27.190 89.302 87.942 1.00 32.09 1318 N GLN A 387 27.603 89.705 90.002 1.00 28.15 1319 CA GLN A 387 28.024 91.166 89.544 1.00 30.91 1320 CB GLN A 387 27.797 92.077 90.694 1.00 31.43 1321 CG GLN A 387 26.434 92.007 91.257 1.00 27.96 1322 CD GLN A 387 26.370 93.075 92.471 1.00 34.77 1323 OE1 GLN A 387 25.322 93.682 92.727 1.00 32.52 1324 NE2 GLN A 387 27.419 93.109 93.204 1.00 27.17 1325 C GLN A 387 29.469 91.191 89.214 1.00 31.99 1326 O GLN A 387 29.869 91.925 88.354 1.00 31.63 1327 N GLU A 388 30.334 90.266 89.823 1.00 28.55 1328 CA GLU A 388 31.784 90.396 89.447 1.00 31.48 1329 CB GLU A 388 32.600 90.761 90.704 1.00 33.38 1330 CG GLU A 388 32.164 92.086 91.443 1.00 32.95 1331 CD GLU A 388 33.246 92.400 92.462 1.00 45.13 1332 OE1 GLU A 388 33.032 92.341 93.664 1.00 37.45 1333 OE2 GLU A 388 34.381 92.855 91.996 1.00 35.97 1334 C GLU A 388 32.227 88.922 88.985 1.00 31.66 1335 O GLU A 388 32.992 88.226 89.633 1.00 28.69 1336 N PRO A 389 31.764 88.550 87.802 1.00 31.67 1337 CA PRO A 389 32.119 87.193 87.288 1.00 33.14 1338 CB PRO A 389 31.345 87.202 85.757 1.00 31.36 1339 CG PRO A 389 31.401 88.824 85.428 1.00 30.48 1340 CD PRO A 389 31.011 89.459 86.763 1.00 27.05 1341 C PRO A 389 33.524 87.002 87.130 1.00 33.73 1342 O PRO A 389 33.989 85.937 87.387 1.00 34.71 1343 N GLY A 390 34.285 88.056 86.575 1.00 31.65 1344 CA GLY A 390 35.709 87.791 86.469 1.00 31.17 1345 C GLY A 390 36.469 87.587 87.823 1.00 31.16 1346 O GLY A 390 37.327 86.725 87.882 1.00 27.68 1347 N ARG A 391 35.986 88.273 88.926 1.00 30.04 1348 CA ARG A 391 36.571 87.993 90.215 1.00 30.27 1349 CB ARG A 391 36.059 88.919 91.287 1.00 31.81 1350 CG ARG A 391 36.876 88.961 92.606 1.00 36.05 1351 CD ARG A 391 38.301 89.717 92.397 1.00 41.83 1352 NE ARG A 391 39.252 88.791 91.670 1.00 44.01 1353 CZ ARG A 391 40.610 88.952 91.753 1.00 60.33 1354 NH1 ARG A 391 41.184 89.957 92.544 1.00 74.34 1355 NH2 ARG A 391 41.440 88.596 90.950 1.00 56.93 1356 C ARG A 391 36.244 86.563 90.653 1.00 29.49 1357 O ARG A 391 37.105 85.837 91.193 1.00 33.05 1358 N VAL A 392 34.992 86.194 90.444 1.00 29.58 1359 CA VAL A 392 34.548 84.837 90.857 1.00 28.07 1360 CB VAL A 392 33.045 84.512 90.527 1.00 25.28 1361 CG1 VAL A 392 32.675 82.920 90.768 1.00 20.82 1362 CG2 VAL A 392 32.179 85.402 91.408 1.00 18.99 1363 C VAL A 392 35.335 83.630 90.215 1.00 25.85 1364 O VAL A 392 35.683 82.672 90.839 1.00 24.37 1365 N GLU A 393 35.606 83.889 89.005 1.00 25.11 1366 CA GLU A 393 36.389 82.820 88.213 1.00 30.37 1367 CB GLU A 393 36.431 83.260 86.648 1.00 27.62 1368 CG GLU A 393 36.954 82.086 85.675 1.00 42.40 1369 CD GLU A 393 36.944 82.429 84.205 1.00 52.44 1370 OE1 GLU A 393 37.290 83.563 83.672 1.00 54.11 1371 OE2 GLU A 393 36.387 81.679 83.473 1.00 59.35 1372 C GLU A 393 37.862 82.831 88.653 1.00 24.86 1373 O GLU A 393 38.392 81.860 88.786 1.00 27.24 1374 N ALA A 394 38.392 83.974 89.054 1.00 28.71 1375 CA ALA A 394 39.853 83.981 89.532 1.00 27.69 1376 CB ALA A 394 40.413 85.489 89.467 1.00 26.95 1377 C ALA A 394 39.910 83.421 90.815 1.00 26.79 1378 O ALA A 394 40.871 82.728 91.065 1.00 37.81 1379 N LEU A 395 38.902 83.530 91.668 1.00 31.39 1380 CA LEU A 395 38.913 82.950 93.019 1.00 26.75 1381 CB LEU A 395 37.800 83.510 93.854 1.00 26.83 1382 CG LEU A 395 37.870 84.934 94.156 1.00 37.10 1383 CD1 LEU A 395 36.675 85.476 94.959 1.00 29.87 1384 CD2 LEU A 395 39.265 85.139 95.047 1.00 38.02 1385 C LEU A 395 38.691 81.426 92.890 1.00 29.53 1386 O LEU A 395 39.026 80.696 93.706 1.00 30.15 1387 N GLN A 396 38.087 80.955 91.788 1.00 30.18 1388 CA GLN A 396 37.872 79.548 91.564 1.00 30.65 1389 CB GLN A 396 36.798 79.306 90.484 1.00 26.71 1390 CG GLN A 396 36.379 77.817 90.332 1.00 27.41 1391 CD GLN A 396 35.582 77.586 89.046 1.00 30.01 1392 OE1 GLN A 396 36.112 77.887 87.939 1.00 34.46 1393 NE2 GLN A 396 34.449 77.071 89.157 1.00 23.49 1394 C GLN A 396 39.125 78.721 91.158 1.00 32.32 1395 O GLN A 396 39.346 77.612 91.588 1.00 31.21 1396 N GLN A 397 39.948 79.383 90.321 1.00 29.93 1397 CA GLN A 397 41.161 78.756 89.857 1.00 34.72 1398 CB GLN A 397 42.079 79.847 89.086 1.00 33.15 1399 CG GLN A 397 41.135 80.521 88.114 1.00 47.89 1400 CD GLN A 397 40.389 79.577 87.026 1.00 54.79 1401 OE1 GLN A 397 40.970 78.909 86.143 1.00 56.43 1402 NE2 GLN A 397 39.078 79.487 87.234 1.00 47.44 1403 C GLN A 397 42.079 78.034 90.789 1.00 31.50 1404 O GLN A 397 42.410 76.885 90.531 1.00 33.95 1405 N PRO A 398 42.488 78.652 91.901 1.00 32.17 1406 CA PRO A 398 43.417 77.939 92.836 1.00 33.30 1407 CB PRO A 398 43.694 78.885 94.123 1.00 30.34 1408 CG PRO A 398 43.243 80.298 93.380 1.00 33.80 1409 CD PRO A 398 42.194 80.090 92.358 1.00 27.53 1410 C PRO A 398 42.738 76.610 93.283 1.00 34.31 1411 O PRO A 398 43.492 75.605 93.531 1.00 37.90 1412 N TYR A 399 41.419 76.575 93.407 1.00 29.80 1413 CA TYR A 399 40.796 75.226 93.787 1.00 29.79 1414 CB TYR A 399 39.314 75.533 94.310 1.00 26.79 1415 CG TYR A 399 39.391 76.369 95.609 1.00 30.20 1416 CD1 TYR A 399 39.850 75.877 96.821 1.00 19.91 1417 CE1 TYR A 399 39.955 76.693 97.925 1.00 19.94 1418 CZ TYR A 399 39.474 78.001 97.852 1.00 28.75 1419 OH TYR A 399 39.610 78.833 98.939 1.00 32.92 1420 CE2 TYR A 399 39.080 78.598 96.645 1.00 27.99 1421 CD2 TYR A 399 39.036 77.786 95.541 1.00 32.38 1422 C TYR A 399 40.838 74.229 92.750 1.00 25.76 1423 O TYR A 399 40.948 73.086 92.974 1.00 27.61 1424 N VAL A 400 40.839 74.678 91.492 1.00 28.90 1425 CA VAL A 400 40.899 73.759 90.343 1.00 30.33 1426 CB VAL A 400 40.525 74.558 89.035 1.00 28.12 1427 CG1 VAL A 400 40.625 73.575 87.823 1.00 28.59 1428 CG2 VAL A 400 38.868 74.957 89.130 1.00 27.17 1429 C VAL A 400 42.343 73.282 90.248 1.00 32.13 1430 O VAL A 400 42.577 72.178 89.990 1.00 32.44 1431 N GLU A 401 43.294 74.187 90.477 1.00 34.53 1432 CA GLU A 401 44.728 73.837 90.461 1.00 31.84 1433 CB GLU A 401 45.553 75.137 90.815 1.00 35.52 1434 CG GLU A 401 45.554 76.108 89.776 1.00 50.30 1435 CD GLU A 401 46.461 77.373 90.237 1.00 71.99 1436 OE1 GLU A 401 47.623 76.993 90.690 1.00 75.14 1437 OE2 GLU A 401 46.044 78.745 90.202 1.00 60.74 1438 C GLU A 401 44.997 72.903 91.542 1.00 32.33 1439 O GLU A 401 45.615 71.865 91.249 1.00 33.73 1440 N ALA A 402 44.488 73.141 92.770 1.00 28.84 1441 CA ALA A 402 44.679 72.213 93.749 1.00 28.99 1442 CB ALA A 402 44.354 72.790 95.207 1.00 23.16 1443 C ALA A 402 44.135 70.909 93.551 1.00 33.91 1444 O ALA A 402 44.737 69.881 93.999 1.00 34.29 1445 N LEU A 403 42.856 70.792 93.023 1.00 31.11 1446 CA LEU A 403 42.286 69.471 92.813 1.00 29.68 1447 CB LEU A 403 40.732 69.679 92.331 1.00 31.27 1448 CG LEU A 403 39.888 68.502 92.054 1.00 22.85 1449 CD1 LEU A 403 39.975 67.378 93.212 1.00 12.67 1450 CD2 LEU A 403 38.459 68.653 91.865 1.00 30.67 1451 C LEU A 403 42.978 68.732 91.721 1.00 32.64 1452 O LEU A 403 43.081 67.511 91.743 1.00 29.24 1453 N LEU A 404 43.492 69.501 90.711 1.00 32.31 1454 CA LEU A 404 44.229 68.965 89.569 1.00 33.73 1455 CB LEU A 404 44.690 69.975 88.666 1.00 34.29 1456 CG LEU A 404 45.500 69.487 87.451 1.00 46.05 1457 CD1 LEU A 404 45.010 68.178 86.857 1.00 46.09 1458 CD2 LEU A 404 45.627 70.528 86.256 1.00 45.50 1459 C LEU A 404 45.476 68.218 90.066 1.00 41.28 1460 O LEU A 404 45.735 66.983 89.744 1.00 44.64 1461 N SER A 405 46.232 68.699 90.957 1.00 37.96 1462 CA SER A 405 47.467 68.220 91.476 1.00 44.39 1463 CB SER A 405 48.389 69.582 91.945 1.00 40.19 1464 OG SER A 405 48.190 69.736 93.256 1.00 52.87 1465 C SER A 405 47.136 67.132 92.536 1.00 43.99 1466 O SER A 405 47.820 66.053 92.550 1.00 42.67 1467 N TYR A 406 46.168 67.418 93.374 1.00 35.30 1468 CA TYR A 406 45.781 66.347 94.211 1.00 34.10 1469 CB TYR A 406 44.682 66.788 95.238 1.00 38.62 1470 CG TYR A 406 44.367 65.841 96.288 1.00 30.54 1471 CD1 TYR A 406 44.805 66.098 97.590 1.00 31.56 1472 CE1 TYR A 406 44.462 65.188 98.631 1.00 30.25 1473 CZ TYR A 406 43.804 64.086 98.329 1.00 26.94 1474 OH TYR A 406 43.423 63.233 99.436 1.00 40.42 1475 CE2 TYR A 406 43.301 63.860 97.184 1.00 30.74 1476 CD2 TYR A 406 43.573 64.795 96.035 1.00 26.35 1477 C TYR A 406 45.427 65.102 93.654 1.00 35.00 1478 O TYR A 406 45.805 63.964 94.172 1.00 38.25 1479 N THR A 407 44.775 65.109 92.611 1.00 36.43 1480 CA THR A 407 44.385 63.965 91.861 1.00 42.81 1481 CB THR A 407 43.137 64.087 90.910 1.00 32.55 1482 OG1 THR A 407 43.410 65.212 90.049 1.00 39.85 1483 CG2 THR A 407 41.899 64.584 91.677 1.00 40.39 1484 C THR A 407 45.514 63.245 91.065 1.00 42.98 1485 O THR A 407 45.504 62.114 90.801 1.00 42.83 1486 N ARG A 408 46.445 64.127 90.628 1.00 46.62 1487 CA ARG A 408 47.571 63.709 89.899 1.00 52.55 1488 CB ARG A 408 48.345 64.721 89.277 1.00 48.70 1489 CG ARG A 408 47.824 64.847 87.855 1.00 53.29 1490 CD ARG A 408 48.685 66.207 87.431 1.00 72.48 1491 NE ARG A 408 48.291 66.729 86.136 1.00 66.20 1492 CZ ARG A 408 48.839 67.847 85.647 1.00 64.96 1493 NH1 ARG A 408 49.702 68.464 86.414 1.00 63.99 1494 NH2 ARG A 408 48.478 68.288 84.370 1.00 69.82 1495 C ARG A 408 48.436 62.765 90.824 1.00 54.06 1496 O ARG A 408 48.991 61.713 90.391 1.00 49.02 1497 N ILE A 409 48.590 63.317 92.076 1.00 51.24 1498 CA ILE A 409 49.270 62.418 93.053 1.00 50.90 1499 CB ILE A 409 49.529 63.313 94.286 1.00 54.05 1500 CG1 ILE A 409 50.683 64.440 93.999 1.00 43.61 1501 CD1 ILE A 409 50.414 65.719 94.449 1.00 45.39 1502 CG2 ILE A 409 49.927 62.382 95.389 1.00 51.63 1503 C ILE A 409 48.661 61.134 93.530 1.00 54.26 1504 O ILE A 409 49.247 60.038 93.741 1.00 55.05 1505 N LYS A 410 47.343 61.152 93.544 1.00 54.70 1506 CA LYS A 410 46.555 60.110 94.103 1.00 50.99 1507 CB LYS A 410 45.161 60.665 94.544 1.00 47.69 1508 CG LYS A 410 44.229 59.623 94.947 1.00 51.67 1509 CD LYS A 410 42.947 60.151 95.775 1.00 55.94 1510 CE LYS A 410 41.975 59.090 96.148 1.00 44.96 1511 NZ LYS A 410 41.200 59.757 97.017 1.00 44.06 1512 C LYS A 410 46.509 59.074 93.032 1.00 49.55 1513 O LYS A 410 46.378 57.845 93.352 1.00 48.08 1514 N ARG A 411 46.407 59.465 91.775 1.00 52.32 1515 CA ARG A 411 46.319 58.384 90.703 1.00 52.88 1516 CB ARG A 411 44.877 58.019 90.242 1.00 54.89 1517 CG ARG A 411 44.056 57.302 91.277 1.00 67.48 1518 CD ARG A 411 44.746 56.064 91.754 1.00 66.12 1519 NE ARG A 411 44.451 55.896 93.193 1.00 68.99 1520 CZ ARG A 411 43.302 55.331 93.552 1.00 61.73 1521 NH1 ARG A 411 42.439 55.144 92.642 1.00 64.12 1522 NH2 ARG A 411 43.153 54.891 94.794 1.00 63.60 1523 C ARG A 411 47.153 58.796 89.515 1.00 57.53 1524 O ARG A 411 46.660 59.216 88.465 1.00 56.06 1525 N PRO A 412 48.481 58.714 89.670 1.00 60.42 1526 CA PRO A 412 49.366 59.100 88.559 1.00 60.45 1527 CB PRO A 412 50.792 58.654 89.055 1.00 56.65 1528 CG PRO A 412 50.638 58.752 90.601 1.00 69.55 1529 CD PRO A 412 49.227 58.268 90.861 1.00 65.25 1530 C PRO A 412 49.000 58.556 87.306 1.00 55.68 1531 O PRO A 412 49.182 59.133 86.255 1.00 54.06 1532 N GLN A 413 48.546 57.356 87.408 1.00 59.90 1533 CA GLN A 413 48.240 56.659 86.032 1.00 60.25 1534 CB GLN A 413 48.527 55.104 86.217 1.00 67.10 1535 CG GLN A 413 49.979 54.905 86.732 1.00 67.59 1536 CD GLN A 413 51.056 55.757 86.119 1.00 69.36 1537 OE1 GLN A 413 52.033 56.057 86.786 1.00 76.94 1538 NE2 GLN A 413 50.872 56.187 84.846 1.00 67.53 1539 C GLN A 413 47.009 56.779 85.481 1.00 59.10 1540 O GLN A 413 46.844 56.449 84.366 1.00 60.75 1541 N ASP A 414 45.896 57.364 86.336 1.00 63.03 1542 CA ASP A 414 44.555 57.575 85.738 1.00 55.65 1543 CB ASP A 414 43.565 56.927 86.446 1.00 53.04 1544 CG ASP A 414 42.148 57.197 85.879 1.00 59.05 1545 OD1 ASP A 414 41.969 58.000 84.911 1.00 68.82 1546 OD2 ASP A 414 41.126 56.572 86.289 1.00 57.97 1547 C ASP A 414 44.407 58.993 85.552 1.00 57.26 1548 O ASP A 414 43.743 59.555 86.419 1.00 60.96 1549 N GLN A 415 44.786 59.617 84.483 1.00 53.51 1550 CA GLN A 415 44.736 61.024 84.480 1.00 57.02 1551 CB GLN A 415 45.840 61.675 83.501 1.00 59.17 1552 CG GLN A 415 45.684 61.102 82.123 1.00 63.39 1553 CD GLN A 415 46.787 61.535 81.185 1.00 69.87 1554 OE1 GLN A 415 48.032 61.685 81.549 1.00 69.69 1555 NE2 GLN A 415 46.370 61.784 79.954 1.00 65.81 1556 C GLN A 415 43.300 61.480 83.949 1.00 59.76 1557 O GLN A 415 43.081 62.730 83.850 1.00 56.95 1558 N LEU A 416 42.429 60.561 83.629 1.00 50.69 1559 CA LEU A 416 41.262 60.915 83.182 1.00 51.95 1560 CB LEU A 416 40.604 59.909 82.263 1.00 53.16 1561 CG LEU A 416 40.848 60.187 80.807 1.00 57.50 1562 CD1 LEU A 416 39.912 59.258 80.067 1.00 61.02 1563 CD2 LEU A 416 40.336 61.419 80.230 1.00 61.68 1564 C LEU A 416 40.167 61.107 84.453 1.00 52.06 1565 O LEU A 416 39.004 61.326 84.201 1.00 48.57 1566 N ARG A 417 40.562 60.772 85.626 1.00 46.23 1567 CA ARG A 417 39.677 60.700 86.771 1.00 40.89 1568 CB ARG A 417 40.450 60.148 87.966 1.00 42.06 1569 CG ARG A 417 39.657 60.063 89.207 1.00 40.87 1570 CD ARG A 417 40.152 58.840 90.092 1.00 39.38 1571 NE ARG A 417 39.531 59.057 91.418 1.00 40.68 1572 CZ ARG A 417 39.876 59.801 92.391 1.00 35.79 1573 NH1 ARG A 417 40.779 60.686 92.220 1.00 36.07 1574 NH2 ARG A 417 39.229 59.755 93.478 1.00 41.09 1575 C ARG A 417 39.269 62.284 87.138 1.00 42.35 1576 O ARG A 417 38.155 62.476 87.367 1.00 42.23 1577 N PHE A 418 40.200 63.278 87.055 1.00 35.97 1578 CA PHE A 418 40.021 64.477 87.203 1.00 35.12 1579 CB PHE A 418 41.315 65.336 87.179 1.00 37.25 1580 CG PHE A 418 41.145 66.817 87.222 1.00 39.82 1581 CD1 PHE A 418 40.561 67.363 88.376 1.00 36.75 1582 CE1 PHE A 418 40.412 68.729 88.477 1.00 39.66 1583 CZ PHE A 418 40.913 69.635 87.493 1.00 38.39 1584 CE2 PHE A 418 41.303 69.057 86.338 1.00 41.04 1585 CD2 PHE A 418 41.411 67.677 86.155 1.00 38.75 1586 C PHE A 418 38.872 65.136 86.285 1.00 36.79 1587 O PHE A 418 37.975 65.773 86.756 1.00 34.40 1588 N PRO A 419 38.976 64.989 85.010 1.00 41.06 1589 CA PRO A 419 37.997 65.452 84.075 1.00 39.02 1590 CB PRO A 419 38.398 64.915 82.750 1.00 34.83 1591 CG PRO A 419 39.855 64.902 82.890 1.00 42.68 1592 CD PRO A 419 40.183 64.401 84.281 1.00 41.24 1593 C PRO A 419 36.585 64.848 84.467 1.00 39.16 1594 O PRO A 419 35.607 65.602 84.408 1.00 33.73 1595 N ARG A 420 36.600 63.577 84.771 1.00 35.41 1596 CA ARG A 420 35.250 62.979 85.162 1.00 37.98 1597 CB ARG A 420 35.532 61.478 85.670 1.00 42.52 1598 CG ARG A 420 35.774 60.547 84.395 1.00 46.42 1599 CD ARG A 420 36.028 59.128 84.767 1.00 50.85 1600 NE ARG A 420 37.172 58.711 83.941 1.00 64.11 1601 CZ ARG A 420 38.362 58.028 84.512 1.00 78.99 1602 NH1 ARG A 420 38.517 57.706 85.875 1.00 70.47 1603 NH2 ARG A 420 39.327 57.619 83.746 1.00 75.11 1604 C ARG A 420 34.767 63.697 86.391 1.00 36.80 1605 O ARG A 420 33.562 63.836 86.490 1.00 36.70 1606 N MET A 421 35.663 64.164 87.317 1.00 34.00 1607 CA MET A 421 35.064 64.925 88.565 1.00 36.38 1608 CB MET A 421 36.145 65.268 89.533 1.00 37.98 1609 CG MET A 421 37.009 64.221 89.994 1.00 42.30 1610 SD MET A 421 37.806 64.611 91.524 1.00 45.58 1611 CE MET A 421 38.300 62.962 92.178 1.00 44.14 1612 C MET A 421 34.438 66.104 88.237 1.00 35.14 1613 O MET A 421 33.286 66.389 88.607 1.00 30.64 1614 N LEU A 422 35.079 66.854 87.231 1.00 33.34 1615 CA LEU A 422 34.470 68.084 86.637 1.00 29.82 1616 CB LEU A 422 35.462 68.738 85.690 1.00 26.02 1617 CG LEU A 422 36.710 69.286 86.396 1.00 33.75 1618 CD1 LEU A 422 37.399 70.279 85.416 1.00 33.74 1619 CD2 LEU A 422 36.267 70.088 87.671 1.00 29.58 1620 C LEU A 422 33.294 67.769 85.929 1.00 27.96 1621 O LEU A 422 32.279 68.609 85.861 1.00 29.14 1622 N MET A 423 33.275 66.662 85.239 1.00 27.82 1623 CA MET A 423 32.065 66.404 84.346 1.00 32.40 1624 CB MET A 423 32.249 65.076 83.582 1.00 34.06 1625 CG MET A 423 31.903 65.119 82.269 1.00 49.31 1626 SD MET A 423 33.373 65.419 81.082 1.00 63.59 1627 CE MET A 423 34.237 63.848 81.579 1.00 57.13 1628 C MET A 423 30.806 66.227 85.315 1.00 30.73 1629 O MET A 423 29.727 66.509 84.918 1.00 29.61 1630 N LYS A 424 31.078 65.801 86.617 1.00 27.60 1631 CA LYS A 424 30.029 65.769 87.539 1.00 29.41 1632 CB LYS A 424 30.371 65.126 88.896 1.00 32.42 1633 CG LYS A 424 30.825 63.645 88.773 1.00 27.50 1634 CD LYS A 424 29.490 62.936 88.242 1.00 36.24 1635 CE LYS A 424 29.832 61.415 88.133 1.00 48.83 1636 NZ LYS A 424 29.139 60.782 86.961 1.00 49.91 1637 C LYS A 424 29.406 67.122 87.734 1.00 23.61 1638 O LYS A 424 28.142 67.230 88.073 1.00 30.83 1639 N LEU A 425 30.136 68.133 87.681 1.00 24.79 1640 CA LEU A 425 29.623 69.505 87.924 1.00 25.47 1641 CB LEU A 425 30.651 70.583 87.816 1.00 28.69 1642 CG LEU A 425 31.803 70.454 88.879 1.00 32.43 1643 CD1 LEU A 425 32.859 71.414 88.452 1.00 22.94 1644 CD2 LEU A 425 31.189 70.728 90.304 1.00 21.58 1645 C LEU A 425 28.500 69.750 86.792 1.00 29.35 1646 O LEU A 425 27.584 70.593 86.996 1.00 25.35 1647 N VAL A 426 28.621 69.038 85.684 1.00 27.10 1648 CA VAL A 426 27.675 69.220 84.602 1.00 28.71 1649 CB VAL A 426 28.187 68.537 83.182 1.00 29.02 1650 CG1 VAL A 426 27.146 68.755 82.165 1.00 25.81 1651 CG2 VAL A 426 29.488 69.113 82.785 1.00 22.35 1652 C VAL A 426 26.371 68.567 84.961 1.00 29.59 1653 O VAL A 426 25.330 69.197 84.784 1.00 25.85 1654 N SER A 427 26.486 67.295 85.446 1.00 25.25 1655 CA SER A 427 25.299 66.592 85.893 1.00 31.04 1656 CB SER A 427 25.646 65.239 86.541 1.00 29.34 1657 OG SER A 427 26.386 64.519 85.593 1.00 36.53 1658 C SER A 427 24.489 67.358 86.989 1.00 27.83 1659 O SER A 427 23.282 67.360 86.996 1.00 29.96 1660 N LEU A 428 25.241 68.094 87.855 1.00 25.96 1661 CA LEU A 428 24.574 68.851 88.874 1.00 25.88 1662 CB LEU A 428 25.615 69.374 89.908 1.00 26.13 1663 CG LEU A 428 26.242 68.388 90.765 1.00 28.00 1664 CD1 LEU A 428 27.333 68.878 91.619 1.00 25.90 1665 CD2 LEU A 428 25.160 67.651 91.617 1.00 25.47 1666 C LEU A 428 23.770 70.091 88.399 1.00 25.61 1667 O LEU A 428 22.797 70.426 89.070 1.00 27.26 1668 N ARG A 429 24.030 70.643 87.309 1.00 27.67 1669 CA ARG A 429 23.168 71.755 86.754 1.00 28.64 1670 CB ARG A 429 23.846 72.372 85.395 1.00 30.85 1671 CG ARG A 429 25.056 73.113 85.647 1.00 32.25 1672 CD ARG A 429 24.907 74.244 86.805 1.00 29.00 1673 NE ARG A 429 26.057 74.913 87.080 1.00 26.21 1674 CZ ARG A 429 26.474 76.062 86.553 1.00 34.64 1675 NH1 ARG A 429 25.821 76.717 85.593 1.00 22.70 1676 NH2 ARG A 429 27.717 76.569 86.962 1.00 23.50 1677 C ARG A 429 21.885 71.086 86.288 1.00 31.30 1678 O ARG A 429 20.758 71.548 86.717 1.00 32.96 1679 N THR A 430 21.963 69.916 85.636 1.00 30.33 1680 CA THR A 430 20.749 69.255 85.310 1.00 30.85 1681 CB THR A 430 20.935 68.120 84.531 1.00 35.73 1682 OG1 THR A 430 21.555 68.364 83.254 1.00 35.60 1683 CG2 THR A 430 19.717 67.347 84.442 1.00 37.10 1684 C THR A 430 19.923 68.792 86.599 1.00 37.17 1685 O THR A 430 18.697 68.925 86.688 1.00 34.48 1686 N LEU A 431 20.643 68.327 87.662 1.00 33.01 1687 CA LEU A 431 19.901 67.926 88.831 1.00 28.10 1688 CB LEU A 431 20.828 67.144 89.785 1.00 23.96 1689 CG LEU A 431 21.261 65.716 89.252 1.00 29.33 1690 CD1 LEU A 431 22.536 65.336 90.048 1.00 27.95 1691 CD2 LEU A 431 20.226 64.748 89.638 1.00 26.21 1692 C LEU A 431 19.241 69.061 89.469 1.00 30.75 1693 O LEU A 431 18.249 68.912 90.236 1.00 28.23 1694 N SER A 432 19.895 70.188 89.382 1.00 31.10 1695 CA SER A 432 19.306 71.382 90.063 1.00 34.73 1696 CB SER A 432 20.276 72.655 89.682 1.00 31.90 1697 OG SER A 432 19.792 73.610 90.459 1.00 34.94 1698 C SER A 432 17.914 71.747 89.269 1.00 33.59 1699 O SER A 432 16.960 72.011 89.974 1.00 32.44 1700 N SER A 433 17.903 71.747 87.942 1.00 27.95 1701 CA SER A 433 16.624 71.955 87.227 1.00 38.05 1702 CB SER A 433 16.663 71.739 85.662 1.00 32.77 1703 OG SER A 433 17.766 72.432 85.101 1.00 45.13 1704 C SER A 433 15.583 70.841 87.730 1.00 38.67 1705 O SER A 433 14.416 71.170 87.950 1.00 37.74 1706 N VAL A 434 16.048 69.555 87.805 1.00 36.17 1707 CA VAL A 434 15.102 68.479 88.235 1.00 32.23 1708 CB VAL A 434 15.767 67.297 88.257 1.00 32.68 1709 CG1 VAL A 434 14.919 66.195 88.855 1.00 30.28 1710 CG2 VAL A 434 16.210 66.792 86.800 1.00 31.93 1711 C VAL A 434 14.580 68.830 89.507 1.00 40.04 1712 O VAL A 434 13.439 68.531 89.830 1.00 38.10 1713 N HIS A 435 15.401 69.491 90.449 1.00 32.82 1714 CA HIS A 435 14.960 69.548 91.844 1.00 35.99 1715 CB HIS A 435 16.108 70.011 92.772 1.00 24.67 1716 CG HIS A 435 15.727 70.667 93.947 1.00 26.20 1717 ND1 HIS A 435 15.127 70.028 95.027 1.00 36.92 1718 CE1 HIS A 435 14.832 70.814 96.029 1.00 22.84 1719 NE2 HIS A 435 15.256 72.018 95.669 1.00 28.59 1720 CD2 HIS A 435 15.802 71.988 94.347 1.00 26.08 1721 C HIS A 435 14.007 70.990 91.768 1.00 37.15 1722 O HIS A 435 13.054 70.980 92.532 1.00 38.90 1723 N SER A 436 14.238 71.783 90.816 1.00 38.33 1724 CA SER A 436 13.399 73.019 90.653 1.00 44.55 1725 CB SER A 436 14.019 73.975 89.619 1.00 41.13 1726 OG SER A 436 15.049 74.750 90.099 1.00 54.11 1727 C SER A 436 12.003 72.383 90.259 1.00 42.03 1728 O SER A 436 10.981 72.945 90.755 1.00 42.41 1729 N GLU A 437 11.969 71.595 89.249 1.00 40.79 1730 CA GLU A 437 10.738 70.900 88.892 1.00 43.47 1731 CB GLU A 437 11.061 69.908 87.927 1.00 43.76 1732 CG GLU A 437 11.464 70.697 86.621 1.00 57.34 1733 CD GLU A 437 11.497 69.764 85.322 1.00 72.30 1734 OE1 GLU A 437 12.311 68.751 85.071 1.00 57.33 1735 OE2 GLU A 437 10.572 70.092 84.521 1.00 76.33 1736 C GLU A 437 9.970 70.284 90.017 1.00 46.04 1737 O GLU A 437 8.762 70.517 90.163 1.00 44.56 1738 N GLN A 438 10.698 69.499 90.812 1.00 46.25 1739 CA GLN A 438 10.148 68.959 91.933 1.00 43.05 1740 CB GLN A 438 11.160 67.968 92.704 1.00 45.87 1741 CG GLN A 438 10.821 67.763 94.135 1.00 49.29 1742 CD GLN A 438 9.663 66.598 94.156 1.00 55.63 1743 OE1 GLN A 438 9.841 65.568 93.633 1.00 55.13 1744 NE2 GLN A 438 8.524 67.028 94.581 1.00 51.65 1745 C GLN A 438 9.503 69.985 92.888 1.00 47.96 1746 O GLN A 438 8.328 69.879 93.358 1.00 51.78 1747 N VAL A 439 10.245 70.999 93.193 1.00 48.20 1748 CA VAL A 439 9.804 72.122 94.037 1.00 50.36 1749 CB VAL A 439 10.729 73.174 94.141 1.00 50.79 1750 CG1 VAL A 439 10.242 74.389 94.716 1.00 52.64 1751 CG2 VAL A 439 11.869 72.737 95.107 1.00 50.25 1752 C VAL A 439 8.379 72.797 93.386 1.00 57.07 1753 O VAL A 439 7.540 73.118 94.051 1.00 53.27 1754 N PHE A 440 8.308 72.784 92.083 1.00 57.76 1755 CA PHE A 440 7.226 73.397 91.444 1.00 66.63 1756 CB PHE A 440 7.548 73.880 89.971 1.00 62.94 1757 CG PHE A 440 6.717 73.131 88.956 1.00 73.05 1758 CD1 PHE A 440 6.802 71.677 88.717 1.00 85.94 1759 CE1 PHE A 440 5.902 70.839 87.909 1.00 73.25 1760 CZ PHE A 440 4.927 71.551 87.287 1.00 82.27 1761 CE2 PHE A 440 4.764 72.960 87.523 1.00 81.56 1762 CD2 PHE A 440 5.646 73.724 88.437 1.00 82.59 1763 C PHE A 440 6.060 72.275 91.573 1.00 66.87 1764 O PHE A 440 4.931 72.840 91.922 1.00 64.21 1765 N ALA A 441 6.261 71.010 91.246 1.00 60.46 1766 CA ALA A 441 5.173 70.271 91.239 1.00 65.34 1767 CB ALA A 441 5.647 68.767 90.689 1.00 61.82 1768 C ALA A 441 4.692 70.143 92.627 1.00 67.12 1769 O ALA A 441 3.901 69.380 92.845 1.00 73.23 1770 N LEU A 442 5.249 70.810 93.570 1.00 72.33 1771 CA LEU A 442 4.796 70.586 94.914 1.00 76.45 1772 CB LEU A 442 6.039 70.402 95.873 1.00 77.74 1773 CG LEU A 442 6.581 68.942 95.867 1.00 83.53 1774 CD1 LEU A 442 7.788 68.673 96.538 1.00 78.41 1775 CD2 LEU A 442 5.497 68.191 96.563 1.00 90.49 1776 C LEU A 442 4.015 71.796 95.331 1.00 78.34 1777 O LEU A 442 3.219 71.716 96.259 1.00 71.44 1778 N ARG A 443 4.350 72.960 94.684 1.00 78.55 1779 CA ARG A 443 3.805 74.263 95.098 1.00 78.60 1780 CB ARG A 443 4.504 75.444 94.406 1.00 77.87 1781 CG ARG A 443 3.994 76.809 94.630 1.00 85.09 1782 CD ARG A 443 4.855 77.895 94.376 1.00 86.30 1783 NE ARG A 443 4.485 78.950 95.329 1.00 85.73 1784 CZ ARG A 443 4.723 80.182 95.006 1.00 95.54 1785 NH1 ARG A 443 5.435 80.465 93.857 1.00 97.80 1786 NH2 ARG A 443 4.317 81.128 95.823 1.00 102.71 1787 C ARG A 443 2.264 74.178 94.653 1.00 84.02 1788 O ARG A 443 1.404 75.220 94.901 1.00 81.88 1789 N LEU A 444 1.934 72.989 94.066 1.00 84.66 1790 CA LEU A 444 0.650 72.774 93.482 1.00 86.44 1791 CB LEU A 444 0.724 72.607 91.957 1.00 84.71 1792 CG LEU A 444 1.212 73.978 91.396 1.00 90.51 1793 CD1 LEU A 444 1.943 73.586 90.075 1.00 93.16 1794 CD2 LEU A 444 0.213 75.394 91.338 1.00 107.20 1795 C LEU A 444 0.196 71.466 94.026 1.00 84.64 1796 O LEU A 444 −0.162 70.680 93.258 1.00 86.26 1797 N ALA A 445 0.238 71.239 95.287 1.00 82.56 1798 CA ALA A 445 −0.176 69.949 95.812 1.00 82.67 1799 CB ALA A 445 0.829 68.934 95.510 1.00 78.79 1800 C ALA A 445 −0.464 70.183 97.356 1.00 85.71 1801 O ALA A 445 −0.371 69.290 98.262 1.00 80.18 1802 N ALA A 446 −0.832 71.475 97.600 1.00 92.16 1803 CA ALA A 446 −1.182 72.091 98.988 1.00 97.18 1804 CB ALA A 446 −2.513 71.589 99.617 1.00 99.10 1805 C ALA A 446 0.117 71.823 99.984 1.00 99.56 1806 O ALA A 446 0.058 71.252 101.258 1.00 100.00 1807 N LYS A 447 1.281 72.187 99.385 1.00 92.32 1808 CA LYS A 447 2.480 71.815 100.040 1.00 85.44 1809 CB LYS A 447 2.859 70.333 99.788 1.00 86.22 1810 CG LYS A 447 4.095 69.872 100.654 1.00 81.60 1811 CD LYS A 447 4.451 68.590 100.406 1.00 82.83 1812 CE LYS A 447 3.268 67.614 100.586 1.00 94.35 1813 NZ LYS A 447 3.579 66.004 100.401 1.00 95.29 1814 C LYS A 447 3.647 72.838 99.640 1.00 85.09 1815 O LYS A 447 4.149 72.846 98.461 1.00 87.81 1816 N LYS A 448 3.975 73.742 100.568 1.00 74.20 1817 CA LYS A 448 4.854 74.659 100.282 1.00 71.88 1818 CB LYS A 448 4.136 75.930 100.716 1.00 76.29 1819 CG LYS A 448 3.062 76.477 99.835 1.00 78.44 1820 CD LYS A 448 2.898 78.032 99.838 1.00 89.59 1821 CE LYS A 448 4.132 78.859 98.972 1.00 90.92 1822 NZ LYS A 448 4.726 80.124 99.676 1.00 78.09 1823 C LYS A 448 6.201 74.552 101.061 1.00 70.07 1824 O LYS A 448 6.299 74.181 102.250 1.00 68.77 1825 N LEU A 449 7.184 75.089 100.484 1.00 64.82 1826 CA LEU A 449 8.394 75.086 101.290 1.00 65.02 1827 CB LEU A 449 9.663 75.453 100.443 1.00 61.79 1828 CG LEU A 449 10.049 74.517 99.154 1.00 59.53 1829 CD1 LEU A 449 10.939 75.250 98.322 1.00 56.93 1830 CD2 LEU A 449 10.691 73.326 99.728 1.00 62.04 1831 C LEU A 449 8.353 75.993 102.569 1.00 61.28 1832 O LEU A 449 8.026 77.014 102.543 1.00 63.29 1833 N PRO A 450 8.901 75.553 103.645 1.00 63.84 1834 CA PRO A 450 8.980 76.446 104.765 1.00 58.74 1835 CB PRO A 450 9.770 75.580 105.907 1.00 64.22 1836 CG PRO A 450 10.837 74.448 104.960 1.00 57.82 1837 CD PRO A 450 9.913 74.288 103.764 1.00 60.43 1838 C PRO A 450 9.800 77.692 104.334 1.00 64.24 1839 O PRO A 450 10.649 77.870 103.396 1.00 67.98 1840 N PRO A 451 9.595 78.728 105.013 1.00 65.71 1841 CA PRO A 451 10.169 79.999 104.625 1.00 62.74 1842 CB PRO A 451 9.910 80.887 105.908 1.00 64.68 1843 CG PRO A 451 8.326 80.238 106.130 1.00 66.88 1844 CD PRO A 451 8.648 78.865 106.130 1.00 66.25 1845 C PRO A 451 11.679 80.077 104.296 1.00 58.54 1846 O PRO A 451 12.236 80.694 103.399 1.00 56.32 1847 N LEU A 452 12.416 79.445 105.043 1.00 58.56 1848 CA LEU A 452 13.817 79.391 104.748 1.00 55.44 1849 CB LEU A 452 14.568 78.564 105.805 1.00 61.54 1850 CG LEU A 452 14.894 79.450 107.096 1.00 60.59 1851 CD1 LEU A 452 15.037 78.629 108.494 1.00 60.37 1852 CD2 LEU A 452 16.218 80.025 106.721 1.00 55.27 1853 C LEU A 452 14.259 78.700 103.446 1.00 52.42 1854 O LEU A 452 14.980 79.281 102.671 1.00 51.12 1855 N LEU A 453 13.674 77.623 103.107 1.00 47.36 1856 CA LEU A 453 13.972 76.984 101.836 1.00 44.76 1857 CB LEU A 453 13.431 75.475 101.875 1.00 39.48 1858 CG LEU A 453 13.901 74.698 103.059 1.00 35.88 1859 CD1 LEU A 453 13.380 73.314 103.060 1.00 35.22 1860 CD2 LEU A 453 15.490 74.839 103.128 1.00 42.22 1861 C LEU A 453 13.376 77.699 100.831 1.00 46.42 1862 O LEU A 453 13.755 77.739 99.619 1.00 44.98 1863 N SER A 454 12.163 78.280 101.198 1.00 51.58 1864 CA SER A 454 11.330 79.070 100.141 1.00 52.68 1865 CB SER A 454 10.070 79.672 100.891 1.00 51.83 1866 OG SER A 454 9.261 80.092 99.852 1.00 53.35 1867 C SER A 454 12.180 80.297 99.505 1.00 45.72 1868 O SER A 454 12.132 80.501 98.407 1.00 44.83 1869 N GLU A 455 12.951 80.901 100.375 1.00 46.32 1870 CA GLU A 455 13.752 82.017 99.942 1.00 51.63 1871 CB GLU A 455 14.524 82.668 101.215 1.00 51.54 1872 CG GLU A 455 14.399 84.099 101.207 1.00 70.41 1873 CD GLU A 455 15.016 84.580 102.494 1.00 89.05 1874 OE1 GLU A 455 14.914 83.941 103.617 1.00 85.24 1875 OE2 GLU A 455 15.563 85.706 102.484 1.00 97.13 1876 C GLU A 455 14.934 81.578 98.853 1.00 58.03 1877 O GLU A 455 15.481 82.370 98.100 1.00 50.47 1878 N ILE A 456 15.328 80.264 98.862 1.00 54.73 1879 CA ILE A 456 16.244 79.882 97.829 1.00 49.19 1880 CB ILE A 456 17.125 78.697 98.531 1.00 49.97 1881 CG1 ILE A 456 17.408 79.156 99.957 1.00 51.26 1882 CD1 ILE A 456 18.058 77.967 100.909 1.00 50.93 1883 CG2 ILE A 456 18.346 78.644 97.712 1.00 47.70 1884 C ILE A 456 15.646 79.312 96.669 1.00 45.32 1885 O ILE A 456 16.109 79.467 95.617 1.00 45.86 1886 N TRP A 457 14.580 78.515 96.847 1.00 45.70 1887 CA TRP A 457 14.165 77.784 95.787 1.00 49.53 1888 CB TRP A 457 13.930 76.402 96.205 1.00 41.00 1889 CG TRP A 457 15.383 75.756 96.619 1.00 45.01 1890 CD1 TRP A 457 16.593 76.100 95.970 1.00 41.75 1891 NE1 TRP A 457 17.484 75.291 96.470 1.00 33.91 1892 CE2 TRP A 457 16.979 74.572 97.414 1.00 36.74 1893 CD2 TRP A 457 15.624 74.856 97.504 1.00 30.90 1894 CE3 TRP A 457 14.863 74.229 98.480 1.00 40.98 1895 CZ3 TRP A 457 15.407 73.254 99.341 1.00 40.95 1896 CH2 TRP A 457 16.852 72.924 99.238 1.00 35.65 1897 CZ2 TRP A 457 17.657 73.666 98.320 1.00 31.70 1898 C TRP A 457 12.761 78.288 95.009 1.00 55.80 1899 O TRP A 457 12.485 77.759 94.016 1.00 61.13 1900 N ASP A 458 12.044 79.154 95.538 1.00 59.64 1901 CA ASP A 458 10.846 79.680 94.653 1.00 67.90 1902 CB ASP A 458 9.572 79.760 95.500 1.00 69.43 1903 CG ASP A 458 8.757 78.391 95.413 1.00 62.47 1904 OD1 ASP A 458 8.323 77.972 94.165 1.00 59.31 1905 OD2 ASP A 458 8.678 77.795 96.429 1.00 51.87 1906 C ASP A 458 11.166 81.042 94.253 1.00 70.30 1907 O ASP A 458 10.615 81.528 93.355 1.00 69.09 1908 N VAL A 459 12.295 81.544 94.842 1.00 77.71 1909 CA VAL A 459 12.847 82.884 94.547 1.00 83.82 1910 CB VAL A 459 14.049 83.127 95.380 1.00 82.76 1911 CG1 VAL A 459 14.617 84.546 94.967 1.00 89.23 1912 CG2 VAL A 459 13.473 83.256 96.861 1.00 91.03 1913 C VAL A 459 13.168 83.060 93.128 1.00 84.97 1914 O VAL A 459 14.391 82.839 92.884 1.00 89.63 1915 OXT VAL A 459 12.329 83.419 92.298 1.00 86.95 1916 N GLU B 216 58.321 62.770 80.955 1.00 104.37 1917 CA GLU B 216 57.234 63.800 80.512 1.00 106.06 1918 CB GLU B 216 57.707 65.248 80.833 1.00 105.65 1919 CG GLU B 216 57.269 65.820 82.137 1.00 107.76 1920 CD GLU B 216 58.068 67.157 82.576 1.00 116.36 1921 OE1 GLU B 216 59.154 67.032 83.347 1.00 110.93 1922 OE2 GLU B 216 57.626 68.366 82.222 1.00 111.71 1923 C GLU B 216 57.034 63.737 78.964 1.00 106.02 1924 O GLU B 216 56.169 62.939 78.581 1.00 104.35 1925 N GLY B 217 57.779 64.617 78.135 1.00 107.22 1926 CA GLY B 217 57.789 64.688 76.647 1.00 105.67 1927 C GLY B 217 56.570 64.814 75.718 1.00 104.69 1928 O GLY B 217 56.440 65.771 74.937 1.00 106.74 1929 N VAL B 218 55.757 63.783 75.659 1.00 103.69 1930 CA VAL B 218 54.562 63.637 74.720 1.00 98.47 1931 CB VAL B 218 53.360 63.434 75.491 1.00 95.36 1932 CG1 VAL B 218 52.862 62.067 75.126 1.00 98.84 1933 CG2 VAL B 218 53.777 63.451 77.005 1.00 102.45 1934 C VAL B 218 54.102 64.529 73.625 1.00 94.37 1935 O VAL B 218 54.296 65.746 73.595 1.00 95.73 1936 N GLN B 219 53.393 63.853 72.775 1.00 89.99 1937 CA GLN B 219 52.771 64.333 71.624 1.00 87.50 1938 CB GLN B 219 53.740 64.376 70.514 1.00 88.79 1939 CG GLN B 219 54.370 65.737 70.260 1.00 99.78 1940 CD GLN B 219 55.356 65.774 68.921 1.00 102.13 1941 OE1 GLN B 219 56.064 66.782 68.670 1.00 99.81 1942 NE2 GLN B 219 55.316 64.709 68.100 1.00 97.21 1943 C GLN B 219 51.646 63.288 71.208 1.00 85.61 1944 O GLN B 219 51.756 62.153 71.651 1.00 87.59 1945 N LEU B 220 50.645 63.647 70.362 1.00 80.42 1946 CA LEU B 220 49.566 62.830 70.020 1.00 80.74 1947 CB LEU B 220 48.740 63.465 68.860 1.00 76.94 1948 CG LEU B 220 48.068 64.785 69.106 1.00 87.28 1949 CD1 LEU B 220 48.472 65.816 68.260 1.00 85.48 1950 CD2 LEU B 220 46.486 64.713 69.177 1.00 91.66 1951 C LEU B 220 50.039 61.426 69.453 1.00 86.14 1952 O LEU B 220 51.322 61.268 69.015 1.00 89.45 1953 N THR B 221 49.049 60.549 69.211 1.00 81.01 1954 CA THR B 221 49.299 59.278 68.777 1.00 80.01 1955 CB THR B 221 48.646 58.213 69.788 1.00 76.61 1956 OG1 THR B 221 47.242 58.289 69.709 1.00 77.41 1957 CG2 THR B 221 49.112 58.246 71.288 1.00 74.67 1958 C THR B 221 48.511 59.389 67.535 1.00 79.99 1959 O THR B 221 47.575 60.151 67.501 1.00 82.96 1960 N ALA B 222 48.738 58.531 66.521 1.00 76.73 1961 CA ALA B 222 48.058 58.652 65.304 1.00 71.98 1962 CB ALA B 222 48.579 57.685 64.258 1.00 83.74 1963 C ALA B 222 46.762 58.321 65.405 1.00 74.83 1964 O ALA B 222 45.833 58.670 64.494 1.00 69.80 1965 N ALA B 223 46.641 57.616 66.534 1.00 75.78 1966 CA ALA B 223 45.280 57.295 67.007 1.00 74.74 1967 CB ALA B 223 45.413 56.749 68.522 1.00 73.66 1968 C ALA B 223 44.429 58.548 66.964 1.00 66.81 1969 O ALA B 223 43.410 58.789 66.227 1.00 66.52 1970 N GLN B 224 44.952 59.362 67.758 1.00 67.53 1971 CA GLN B 224 44.188 60.715 67.901 1.00 69.66 1972 CB GLN B 224 44.506 61.233 69.174 1.00 63.64 1973 CG GLN B 224 45.919 61.023 69.742 1.00 54.82 1974 CD GLN B 224 45.914 60.881 71.222 1.00 61.31 1975 OE1 GLN B 224 46.978 61.214 71.967 1.00 60.03 1976 NE2 GLN B 224 44.709 60.497 71.807 1.00 60.04 1977 C GLN B 224 44.141 61.725 66.676 1.00 66.55 1978 O GLN B 224 42.993 62.319 66.151 1.00 62.07 1979 N GLU B 225 45.278 61.728 66.021 1.00 70.62 1980 CA GLU B 225 45.190 62.593 64.761 1.00 68.19 1981 CB GLU B 225 46.480 62.689 64.237 1.00 77.82 1982 CG GLU B 225 47.079 64.105 64.057 1.00 81.01 1983 CD GLU B 225 48.649 64.215 64.181 1.00 70.84 1984 OE1 GLU B 225 49.248 63.364 64.898 1.00 75.02 1985 OE2 GLU B 225 49.263 65.156 63.577 1.00 72.57 1986 C GLU B 225 44.372 62.290 63.734 1.00 62.50 1987 O GLU B 225 43.317 63.140 63.169 1.00 60.80 1988 N ALA B 226 44.342 60.972 63.597 1.00 69.45 1989 CA ALA B 226 42.963 60.527 62.746 1.00 70.76 1990 CB ALA B 226 42.721 59.008 62.661 1.00 77.42 1991 C ALA B 226 41.982 61.171 63.218 1.00 65.26 1992 O ALA B 226 41.034 61.841 62.464 1.00 65.23 1993 N MET B 227 41.615 60.849 64.432 1.00 73.79 1994 CA MET B 227 40.135 61.403 64.931 1.00 58.91 1995 CB MET B 227 40.047 60.908 66.356 1.00 63.81 1996 CG MET B 227 38.792 61.642 67.072 1.00 63.60 1997 SD MET B 227 39.312 61.820 68.847 1.00 74.22 1998 CE MET B 227 40.123 60.366 69.617 1.00 64.78 1999 C MET B 227 40.050 62.822 64.740 1.00 53.86 2000 O MET B 227 38.919 63.341 64.335 1.00 58.35 2001 N ILE B 228 41.123 63.528 64.912 1.00 52.26 2002 CA ILE B 228 40.924 64.993 64.635 1.00 54.73 2003 CB ILE B 228 42.273 65.657 65.304 1.00 57.09 2004 CG1 ILE B 228 42.424 65.342 66.623 1.00 54.21 2005 CD1 ILE B 228 43.637 65.693 67.065 1.00 71.68 2006 CG2 ILE B 228 42.290 67.084 65.280 1.00 66.30 2007 C ILE B 228 40.488 65.434 63.252 1.00 59.28 2008 O ILE B 228 39.399 66.221 63.112 1.00 55.72 2009 N GLN B 229 41.717 65.136 62.373 1.00 67.17 2010 CA GLN B 229 41.220 65.425 61.025 1.00 56.82 2011 CB GLN B 229 42.067 64.717 60.025 1.00 72.34 2012 CG GLN B 229 42.784 65.636 58.754 1.00 63.55 2013 CD GLN B 229 44.232 65.970 59.210 1.00 79.42 2014 OE1 GLN B 229 44.605 67.084 59.893 1.00 79.95 2015 NE2 GLN B 229 45.174 64.947 58.928 1.00 83.13 2016 C GLN B 229 39.932 65.027 60.659 1.00 53.09 2017 O GLN B 229 38.929 65.709 60.133 1.00 54.06 2018 N GLN B 230 39.742 63.883 60.942 1.00 57.65 2019 CA GLN B 230 38.128 63.382 60.670 1.00 62.36 2020 CB GLN B 230 37.940 61.858 61.286 1.00 68.75 2021 CG GLN B 230 36.517 61.303 61.428 1.00 66.09 2022 CD GLN B 230 36.302 59.984 60.740 1.00 72.78 2023 OE1 GLN B 230 35.581 59.153 61.300 1.00 79.24 2024 NE2 GLN B 230 36.751 59.851 59.385 1.00 79.99 2025 C GLN B 230 37.132 64.259 61.023 1.00 58.98 2026 O GLN B 230 36.234 64.761 60.243 1.00 65.60 2027 N LEU B 231 37.184 64.567 62.325 1.00 61.17 2028 CA LEU B 231 36.271 65.559 63.009 1.00 56.23 2029 CB LEU B 231 36.527 65.721 64.543 1.00 66.04 2030 CG LEU B 231 36.078 64.613 65.585 1.00 68.69 2031 CD1 LEU B 231 36.486 65.056 66.929 1.00 57.79 2032 CD2 LEU B 231 34.422 64.277 65.434 1.00 52.98 2033 C LEU B 231 36.329 66.995 62.437 1.00 54.78 2034 O LEU B 231 35.259 67.574 62.231 1.00 57.81 2035 N VAL B 232 37.321 67.640 62.034 1.00 62.54 2036 CA VAL B 232 37.149 69.043 61.447 1.00 66.58 2037 CB VAL B 232 38.485 69.812 61.477 1.00 67.20 2038 CG1 VAL B 232 39.817 69.150 62.503 1.00 61.81 2039 CG2 VAL B 232 38.915 69.807 60.241 1.00 79.63 2040 C VAL B 232 36.493 69.154 59.990 1.00 65.40 2041 O VAL B 232 35.559 69.981 59.698 1.00 60.73 2042 N ALA B 233 36.848 68.108 59.206 1.00 68.53 2043 CA ALA B 233 36.221 68.049 57.772 1.00 66.56 2044 CB ALA B 233 36.610 67.001 57.095 1.00 65.10 2045 C ALA B 233 34.713 68.055 57.800 1.00 73.51 2046 O ALA B 233 34.001 68.933 56.823 1.00 68.35 2047 N ALA B 234 34.180 67.208 58.815 1.00 67.41 2048 CA ALA B 234 32.789 67.089 58.936 1.00 68.39 2049 CB ALA B 234 32.406 66.087 60.009 1.00 68.31 2050 C ALA B 234 32.062 68.334 59.125 1.00 75.66 2051 O ALA B 234 30.789 68.666 58.669 1.00 79.35 2052 N GLN B 235 32.785 69.152 59.785 1.00 82.05 2053 CA GLN B 235 32.111 70.403 60.090 1.00 85.91 2054 CB GLN B 235 32.565 70.876 61.676 1.00 84.49 2055 CG GLN B 235 33.819 71.201 61.907 1.00 89.12 2056 CD GLN B 235 34.175 71.656 63.242 1.00 100.23 2057 OE1 GLN B 235 35.396 72.090 63.469 1.00 93.13 2058 NE2 GLN B 235 33.222 71.508 64.165 1.00 96.59 2059 C GLN B 235 32.178 71.421 59.033 1.00 83.43 2060 O GLN B 235 31.554 72.471 59.051 1.00 82.43 2061 N LEU B 236 33.072 71.063 58.122 1.00 91.29 2062 CA LEU B 236 33.234 71.793 56.844 1.00 89.72 2063 CB LEU B 236 34.558 71.576 56.363 1.00 87.89 2064 CG LEU B 236 35.548 72.011 57.426 1.00 95.20 2065 CD1 LEU B 236 36.945 72.282 56.958 1.00 87.66 2066 CD2 LEU B 236 35.131 73.303 58.312 1.00 108.16 2067 C LEU B 236 32.286 71.245 55.881 1.00 88.08 2068 O LEU B 236 31.926 71.960 55.003 1.00 93.63 2069 N GLN B 237 31.852 69.992 56.046 1.00 90.20 2070 CA GLN B 237 30.803 69.360 55.060 1.00 92.05 2071 CB GLN B 237 30.467 67.906 55.468 1.00 90.65 2072 CG GLN B 237 29.549 67.046 54.443 1.00 97.30 2073 CD GLN B 237 28.369 66.278 55.109 1.00 94.00 2074 OE1 GLN B 237 28.258 65.037 55.016 1.00 103.21 2075 NE2 GLN B 237 27.481 66.985 55.761 1.00 97.17 2076 C GLN B 237 29.587 70.312 55.242 1.00 90.77 2077 O GLN B 237 28.938 70.601 54.263 1.00 91.75 2078 N ALA B 238 29.372 70.672 56.527 1.00 86.00 2079 CA ALA B 238 28.534 71.693 57.027 1.00 90.09 2080 CB ALA B 238 29.561 72.807 57.626 1.00 88.02 2081 C ALA B 238 27.354 72.493 56.322 1.00 90.02 2082 O ALA B 238 26.284 72.317 56.754 1.00 90.59 2083 N ALA B 239 27.518 73.378 55.305 1.00 91.29 2084 CA ALA B 239 26.354 74.165 54.825 1.00 94.57 2085 CB ALA B 239 26.022 75.307 55.798 1.00 96.72 2086 C ALA B 239 26.437 74.827 53.438 1.00 96.93 2087 O ALA B 239 27.583 75.241 53.091 1.00 90.16 2088 N ALA B 240 25.177 75.029 52.800 1.00 96.92 2089 CA ALA B 240 24.941 75.529 51.426 1.00 98.11 2090 CB ALA B 240 23.284 75.630 51.054 1.00 99.06 2091 C ALA B 240 25.656 76.871 51.061 1.00 100.78 2092 O ALA B 240 25.725 77.284 49.807 1.00 100.97 2093 N ALA B 242 21.565 79.128 48.299 1.00 106.20 2094 CA ALA B 242 20.635 78.973 49.457 1.00 108.35 2095 CB ALA B 242 20.497 80.423 50.236 1.00 109.25 2096 C ALA B 242 19.265 78.460 49.037 1.00 106.40 2097 O ALA B 242 19.203 77.697 48.104 1.00 108.04 2098 N ALA B 243 18.207 78.966 49.715 1.00 105.11 2099 CA ALA B 243 16.768 78.714 49.496 1.00 101.10 2100 CB ALA B 243 16.502 77.309 49.423 1.00 97.27 2101 C ALA B 243 16.103 79.335 50.796 1.00 101.77 2102 O ALA B 243 16.810 79.916 51.666 1.00 101.06 2103 N ALA B 244 14.761 79.338 50.863 1.00 100.84 2104 CA ALA B 244 13.907 79.821 51.969 1.00 99.77 2105 CB ALA B 244 14.063 78.822 53.233 1.00 100.95 2106 C ALA B 244 13.795 81.316 52.457 1.00 101.34 2107 O ALA B 244 13.050 82.166 51.858 1.00 100.88 2108 N ALA B 245 14.517 81.556 53.593 1.00 102.46 2109 CA ALA B 245 14.675 82.740 54.351 1.00 101.68 2110 CB ALA B 245 15.956 83.504 53.854 1.00 103.15 2111 C ALA B 245 13.282 83.600 54.522 1.00 102.07 2112 O ALA B 245 12.242 83.072 55.091 1.00 98.13 2113 N ALA B 246 13.313 84.906 54.167 1.00 103.68 2114 CA ALA B 246 12.174 85.963 54.354 1.00 106.15 2115 CB ALA B 246 11.254 85.604 55.581 1.00 107.17 2116 C ALA B 246 12.768 87.336 54.611 1.00 103.67 2117 O ALA B 246 13.973 87.382 54.983 1.00 106.48 2118 N GLN B 266 6.953 87.068 62.544 1.00 79.67 2119 CA GLN B 266 7.541 87.520 61.272 1.00 87.37 2120 CB GLN B 266 7.673 89.025 61.102 1.00 88.42 2121 CG GLN B 266 6.268 89.732 60.996 1.00 98.96 2122 CD GLN B 266 5.890 90.602 62.314 1.00 92.78 2123 OE1 GLN B 266 5.183 91.529 62.175 1.00 86.17 2124 NE2 GLN B 266 6.550 90.324 63.519 1.00 92.39 2125 C GLN B 266 8.981 87.127 61.449 1.00 87.17 2126 O GLN B 266 9.512 86.310 60.885 1.00 83.42 2127 N ALA B 267 9.640 87.770 62.327 1.00 91.53 2128 CA ALA B 267 11.131 87.476 62.636 1.00 95.36 2129 CB ALA B 267 11.605 88.595 63.456 1.00 94.72 2130 C ALA B 267 11.491 86.138 63.438 1.00 92.03 2131 O ALA B 267 12.383 85.532 63.473 1.00 90.82 2132 N PHE B 268 10.539 85.702 64.144 1.00 92.21 2133 CA PHE B 268 10.383 84.455 64.990 1.00 86.22 2134 CB PHE B 268 9.005 84.449 65.761 1.00 89.59 2135 CG PHE B 268 8.833 83.386 66.595 1.00 90.51 2136 CD1 PHE B 268 9.929 83.048 67.309 1.00 98.22 2137 CE1 PHE B 268 9.897 81.943 68.142 1.00 93.68 2138 CZ PHE B 268 8.822 81.106 68.218 1.00 91.59 2139 CE2 PHE B 268 7.702 81.414 67.511 1.00 94.27 2140 CD2 PHE B 268 7.733 82.598 66.642 1.00 87.97 2141 C PHE B 268 10.531 83.323 64.071 1.00 84.42 2142 O PHE B 268 10.531 82.320 64.553 1.00 85.87 2143 N ALA B 269 10.425 83.506 62.776 1.00 82.21 2144 CA ALA B 269 10.531 82.387 61.808 1.00 79.55 2145 CB ALA B 269 9.447 82.574 60.559 1.00 86.99 2146 C ALA B 269 11.777 82.572 61.267 1.00 80.77 2147 O ALA B 269 12.488 81.571 60.924 1.00 80.47 2148 N HIS B 270 12.177 83.871 61.124 1.00 80.30 2149 CA HIS B 270 13.498 84.074 60.549 1.00 81.61 2150 CB HIS B 270 13.981 85.474 60.648 1.00 79.26 2151 CG HIS B 270 15.397 85.686 60.208 1.00 79.92 2152 ND1 HIS B 270 15.858 85.338 58.935 1.00 88.96 2153 CE1 HIS B 270 17.167 85.567 58.854 1.00 89.00 2154 NE2 HIS B 270 17.547 86.143 59.990 1.00 80.69 2155 CD2 HIS B 270 16.464 86.261 60.826 1.00 79.78 2156 C HIS B 270 14.364 83.169 61.501 1.00 77.66 2157 O HIS B 270 15.185 82.332 60.986 1.00 82.44 2158 N PHE B 271 14.167 83.269 62.823 1.00 73.18 2159 CA PHE B 271 15.350 82.615 63.646 1.00 80.03 2160 CB PHE B 271 15.176 83.094 65.106 1.00 77.22 2161 CG PHE B 271 16.097 84.140 65.441 1.00 84.35 2162 CD1 PHE B 271 17.573 83.924 65.446 1.00 84.34 2163 CE1 PHE B 271 18.374 85.069 65.878 1.00 86.87 2164 CZ PHE B 271 17.677 86.291 66.095 1.00 76.68 2165 CE2 PHE B 271 16.370 86.438 65.851 1.00 77.21 2166 CD2 PHE B 271 15.582 85.407 65.679 1.00 80.51 2167 C PHE B 271 15.250 81.086 63.568 1.00 75.88 2168 O PHE B 271 16.151 80.246 63.317 1.00 77.81 2169 N THR B 272 13.980 80.823 63.795 1.00 74.79 2170 CA THR B 272 13.200 79.536 63.756 1.00 73.99 2171 CB THR B 272 11.591 79.623 63.982 1.00 74.69 2172 OG1 THR B 272 11.267 80.058 65.296 1.00 78.22 2173 CG2 THR B 272 11.131 78.270 63.971 1.00 82.08 2174 C THR B 272 13.424 78.880 62.405 1.00 68.81 2175 O THR B 272 13.336 77.663 62.264 1.00 73.54 2176 N GLU B 273 13.892 79.676 61.456 1.00 68.43 2177 CA GLU B 273 14.180 79.135 60.200 1.00 69.62 2178 CB GLU B 273 13.896 80.301 59.176 1.00 73.97 2179 CG GLU B 273 12.639 80.045 58.219 1.00 78.18 2180 CD GLU B 273 12.078 81.415 57.497 1.00 78.36 2181 OE1 GLU B 273 11.442 82.220 58.142 1.00 71.56 2182 OE2 GLU B 273 12.284 81.645 56.297 1.00 74.81 2183 C GLU B 273 15.593 78.771 60.181 1.00 66.71 2184 O GLU B 273 16.091 77.764 59.765 1.00 64.57 2185 N LEU B 274 16.288 79.719 60.680 1.00 65.82 2186 CA LEU B 274 17.682 79.427 60.696 1.00 69.97 2187 CB LEU B 274 18.459 80.686 61.251 1.00 78.70 2188 CG LEU B 274 20.159 80.548 61.290 1.00 71.61 2189 CD1 LEU B 274 20.909 80.170 59.963 1.00 84.54 2190 CD2 LEU B 274 20.826 81.824 61.614 1.00 88.89 2191 C LEU B 274 18.164 78.304 61.694 1.00 63.14 2192 O LEU B 274 19.076 77.590 61.486 1.00 53.88 2193 N ALA B 275 17.421 78.053 62.713 1.00 63.35 2194 CA ALA B 275 17.751 76.963 63.565 1.00 63.41 2195 CB ALA B 275 16.697 77.133 64.830 1.00 61.70 2196 C ALA B 275 17.487 75.617 62.756 1.00 65.82 2197 O ALA B 275 18.409 74.716 62.871 1.00 59.36 2198 N ILE B 276 16.291 75.527 61.979 1.00 60.42 2199 CA ILE B 276 15.967 74.404 61.210 1.00 56.65 2200 CB ILE B 276 14.585 74.566 60.433 1.00 53.48 2201 CG1 ILE B 276 13.491 74.529 61.520 1.00 60.73 2202 CD1 ILE B 276 11.929 74.884 61.183 1.00 73.36 2203 CG2 ILE B 276 14.351 73.484 59.499 1.00 46.80 2204 C ILE B 276 16.994 74.036 60.418 1.00 55.64 2205 O ILE B 276 17.098 72.909 60.058 1.00 65.41 2206 N ILE B 277 17.822 74.899 59.999 1.00 58.61 2207 CA ILE B 277 19.026 74.628 59.151 1.00 54.52 2208 CB ILE B 277 19.458 76.021 58.603 1.00 58.00 2209 CG1 ILE B 277 18.132 76.618 58.041 1.00 58.20 2210 CD1 ILE B 277 18.060 78.023 58.363 1.00 67.84 2211 CG2 ILE B 277 20.582 75.792 57.634 1.00 62.11 2212 C ILE B 277 20.028 74.087 59.838 1.00 55.62 2213 O ILE B 277 20.757 73.255 59.425 1.00 58.46 2214 N SER B 278 20.165 74.668 61.119 1.00 55.68 2215 CA SER B 278 21.243 74.182 62.080 1.00 54.04 2216 CB SER B 278 21.279 74.978 63.347 1.00 61.52 2217 OG SER B 278 20.704 76.195 63.076 1.00 73.03 2218 C SER B 278 21.197 72.681 62.521 1.00 44.66 2219 O SER B 278 21.971 71.913 62.631 1.00 46.18 2220 N VAL B 279 19.911 72.306 62.666 1.00 51.44 2221 CA VAL B 279 19.498 70.964 63.038 1.00 49.70 2222 CB VAL B 279 18.252 70.872 63.069 1.00 56.96 2223 CG1 VAL B 279 17.285 69.449 63.474 1.00 60.86 2224 CG2 VAL B 279 17.405 71.876 64.073 1.00 58.26 2225 C VAL B 279 19.959 69.973 62.052 1.00 50.33 2226 O VAL B 279 20.198 68.818 62.507 1.00 50.44 2227 N GLN B 280 20.179 70.355 60.775 1.00 54.00 2228 CA GLN B 280 20.766 69.299 59.768 1.00 50.44 2229 CB GLN B 280 20.317 69.830 58.243 1.00 58.81 2230 CG GLN B 280 21.341 68.972 57.208 1.00 52.24 2231 CD GLN B 280 20.545 67.504 57.051 1.00 60.94 2232 OE1 GLN B 280 19.444 67.460 56.472 1.00 79.31 2233 NE2 GLN B 280 21.147 66.474 57.368 1.00 47.82 2234 C GLN B 280 22.137 69.264 59.730 1.00 55.32 2235 O GLN B 280 22.877 68.086 59.623 1.00 54.41 2236 N GLU B 281 22.822 70.548 59.851 1.00 57.18 2237 CA GLU B 281 24.342 70.372 59.794 1.00 51.39 2238 CB GLU B 281 24.689 71.870 59.981 1.00 60.52 2239 CG GLU B 281 23.537 72.847 59.755 1.00 65.49 2240 CD GLU B 281 23.967 74.410 60.323 1.00 81.25 2241 OE1 GLU B 281 24.406 74.654 61.490 1.00 76.30 2242 OE2 GLU B 281 23.880 75.392 59.525 1.00 73.76 2243 C GLU B 281 24.651 69.620 60.970 1.00 48.92 2244 O GLU B 281 25.664 69.008 61.028 1.00 56.76 2245 N ILE B 282 23.794 69.627 62.092 1.00 52.05 2246 CA ILE B 282 24.445 68.874 63.277 1.00 57.49 2247 CB ILE B 282 23.393 69.292 64.536 1.00 54.00 2248 CG1 ILE B 282 23.998 70.716 65.057 1.00 54.53 2249 CD1 ILE B 282 23.111 71.419 65.835 1.00 49.35 2250 CG2 ILE B 282 23.495 68.340 65.377 1.00 45.45 2251 C ILE B 282 24.212 67.317 63.085 1.00 54.21 2252 O ILE B 282 25.343 66.575 63.214 1.00 53.24 2253 N VAL B 283 23.089 66.821 62.692 1.00 50.83 2254 CA VAL B 283 22.999 65.423 62.436 1.00 56.24 2255 CB VAL B 283 21.731 65.072 61.917 1.00 58.66 2256 CG1 VAL B 283 21.849 63.626 61.445 1.00 54.04 2257 CG2 VAL B 283 20.315 65.468 62.959 1.00 50.38 2258 C VAL B 283 23.943 64.939 61.410 1.00 56.20 2259 O VAL B 283 24.523 63.848 61.557 1.00 51.77 2260 N ASP B 284 24.292 65.778 60.472 1.00 55.22 2261 CA ASP B 284 25.346 65.211 59.571 1.00 64.25 2262 CB ASP B 284 25.303 65.906 58.091 1.00 68.50 2263 CG ASP B 284 24.065 65.417 57.282 1.00 68.12 2264 OD1 ASP B 284 23.881 64.122 57.296 1.00 67.53 2265 OD2 ASP B 284 23.246 66.294 56.739 1.00 68.04 2266 C ASP B 284 26.612 65.167 60.047 1.00 63.92 2267 O ASP B 284 27.455 64.571 59.436 1.00 62.17 2268 N PHE B 285 26.849 66.018 61.097 1.00 64.71 2269 CA PHE B 285 28.289 65.938 61.652 1.00 61.65 2270 CB PHE B 285 28.516 67.217 62.474 1.00 63.46 2271 CG PHE B 285 29.633 67.192 63.322 1.00 57.88 2272 CD1 PHE B 285 30.710 67.208 62.677 1.00 62.04 2273 CE1 PHE B 285 32.294 67.127 63.392 1.00 65.42 2274 CZ PHE B 285 32.081 67.078 64.810 1.00 70.04 2275 CE2 PHE B 285 30.787 67.037 65.384 1.00 55.03 2276 CD2 PHE B 285 29.605 67.142 64.725 1.00 57.34 2277 C PHE B 285 28.250 64.787 62.666 1.00 57.92 2278 O PHE B 285 29.264 64.083 62.806 1.00 54.29 2279 N ALA B 286 26.974 64.544 63.356 1.00 62.27 2280 CA ALA B 286 27.063 63.462 64.418 1.00 56.88 2281 CB ALA B 286 25.756 63.582 65.092 1.00 55.00 2282 C ALA B 286 27.280 62.110 63.683 1.00 59.47 2283 O ALA B 286 28.273 61.334 64.050 1.00 59.93 2284 N LYS B 287 26.493 61.853 62.624 1.00 62.20 2285 CA LYS B 287 26.665 60.564 61.794 1.00 63.29 2286 CB LYS B 287 25.771 60.724 60.554 1.00 55.81 2287 CG LYS B 287 24.319 60.987 60.852 1.00 56.80 2288 CD LYS B 287 23.359 61.386 59.489 1.00 70.39 2289 CE LYS B 287 23.158 60.140 58.561 1.00 61.74 2290 NZ LYS B 287 22.811 60.223 57.189 1.00 60.01 2291 C LYS B 287 28.031 60.319 61.490 1.00 59.19 2292 O LYS B 287 28.487 59.291 61.648 1.00 57.30 2293 N GLN B 288 28.792 61.327 61.254 1.00 57.51 2294 CA GLN B 288 30.344 61.122 61.058 1.00 57.22 2295 CB GLN B 288 30.812 62.429 60.049 1.00 61.51 2296 CG GLN B 288 31.229 62.044 58.542 1.00 62.61 2297 CD GLN B 288 32.406 61.121 58.469 1.00 76.06 2298 OE1 GLN B 288 32.202 59.789 58.161 1.00 70.64 2299 NE2 GLN B 288 33.658 61.690 58.793 1.00 68.17 2300 C GLN B 288 31.051 61.018 62.019 1.00 54.37 2301 O GLN B 288 32.337 61.108 61.886 1.00 61.46 2302 N VAL B 289 30.419 61.010 63.190 1.00 61.78 2303 CA VAL B 289 31.531 60.817 64.348 1.00 58.20 2304 CB VAL B 289 30.984 61.685 65.746 1.00 63.17 2305 CG1 VAL B 289 32.033 61.537 66.877 1.00 56.94 2306 CG2 VAL B 289 30.675 63.103 65.519 1.00 53.71 2307 C VAL B 289 31.872 59.511 64.637 1.00 56.27 2308 O VAL B 289 31.115 58.717 64.937 1.00 67.55 2309 N PRO B 290 33.036 59.135 64.777 1.00 61.39 2310 CA PRO B 290 33.490 57.792 65.097 1.00 60.40 2311 CB PRO B 290 34.896 57.881 65.238 1.00 59.76 2312 CG PRO B 290 35.259 59.069 64.376 1.00 57.41 2313 CD PRO B 290 34.169 59.982 64.687 1.00 65.61 2314 C PRO B 290 32.877 57.106 66.282 1.00 62.07 2315 O PRO B 290 33.543 57.041 67.400 1.00 63.88 2316 N GLY B 291 31.787 56.458 66.045 1.00 53.48 2317 CA GLY B 291 31.118 55.692 67.264 1.00 52.08 2318 C GLY B 291 29.629 55.988 67.409 1.00 47.37 2319 O GLY B 291 28.827 55.279 67.830 1.00 47.64 2320 N PHE B 292 29.260 57.143 66.788 1.00 46.97 2321 CA PHE B 292 27.961 57.485 66.870 1.00 48.61 2322 CB PHE B 292 27.816 58.865 66.348 1.00 44.81 2323 CG PHE B 292 26.433 59.424 66.587 1.00 44.19 2324 CD1 PHE B 292 26.050 59.806 67.863 1.00 42.15 2325 CE1 PHE B 292 24.867 60.284 68.073 1.00 36.36 2326 CZ PHE B 292 23.924 60.297 67.124 1.00 41.35 2327 CE2 PHE B 292 24.222 59.911 65.844 1.00 44.46 2328 CD2 PHE B 292 25.541 59.565 65.559 1.00 42.70 2329 C PHE B 292 26.955 56.514 66.316 1.00 56.70 2330 O PHE B 292 25.969 56.113 67.050 1.00 56.57 2331 N LEU B 293 27.131 56.163 64.973 1.00 53.68 2332 CA LEU B 293 26.241 55.342 64.318 1.00 53.58 2333 CB LEU B 293 26.435 55.479 62.811 1.00 49.24 2334 CG LEU B 293 25.992 56.784 62.295 1.00 53.64 2335 CD1 LEU B 293 26.253 56.997 60.850 1.00 53.77 2336 CD2 LEU B 293 24.184 56.923 62.401 1.00 48.39 2337 C LEU B 293 26.103 53.878 64.768 1.00 52.40 2338 O LEU B 293 25.204 53.115 64.277 1.00 52.95 2339 N GLN B 294 27.063 53.528 65.590 1.00 54.66 2340 CA GLN B 294 27.133 52.177 66.240 1.00 58.82 2341 CB GLN B 294 28.534 51.766 66.446 1.00 55.99 2342 CG GLN B 294 29.381 52.586 65.434 1.00 61.48 2343 CD GLN B 294 30.925 52.325 65.623 1.00 74.17 2344 OE1 GLN B 294 31.319 51.724 66.545 1.00 75.85 2345 NE2 GLN B 294 31.784 52.888 64.776 1.00 69.33 2346 C GLN B 294 26.389 52.057 67.524 1.00 58.14 2347 O GLN B 294 26.326 51.003 68.038 1.00 61.97 2348 N LEU B 295 25.691 53.044 67.947 1.00 56.46 2349 CA LEU B 295 25.025 52.982 69.224 1.00 61.54 2350 CB LEU B 295 24.900 54.500 69.876 1.00 55.24 2351 CG LEU B 295 26.176 55.068 70.533 1.00 50.71 2352 CD1 LEU B 295 26.052 56.510 70.987 1.00 36.73 2353 CD2 LEU B 295 26.341 54.250 71.781 1.00 48.13 2354 C LEU B 295 23.605 52.533 68.800 1.00 60.78 2355 O LEU B 295 23.213 52.803 67.636 1.00 59.88 2356 N GLY B 296 22.742 52.176 69.774 1.00 59.07 2357 CA GLY B 296 21.359 51.909 69.435 1.00 55.12 2358 C GLY B 296 20.749 53.114 68.818 1.00 62.84 2359 O GLY B 296 21.137 54.384 69.095 1.00 60.06 2360 N ARG B 297 19.716 52.882 67.977 1.00 63.08 2361 CA ARG B 297 19.063 54.044 67.321 1.00 62.49 2362 CB ARG B 297 17.986 53.603 66.339 1.00 55.91 2363 CG ARG B 297 16.766 54.303 66.499 1.00 61.42 2364 CD ARG B 297 15.836 54.353 65.183 1.00 66.08 2365 NE ARG B 297 16.781 54.841 64.113 1.00 83.98 2366 CZ ARG B 297 16.394 55.084 62.853 1.00 76.13 2367 NH1 ARG B 297 15.378 54.775 62.444 1.00 84.00 2368 NH2 ARG B 297 17.227 55.522 61.910 1.00 68.07 2369 C ARG B 297 18.499 54.957 68.436 1.00 61.26 2370 O ARG B 297 18.481 56.167 68.385 1.00 63.34 2371 N GLU B 298 18.073 54.391 69.440 1.00 58.48 2372 CA GLU B 298 17.405 55.199 70.428 1.00 62.30 2373 CB GLU B 298 16.647 54.195 71.537 1.00 57.17 2374 CG GLU B 298 15.169 54.174 71.324 1.00 67.57 2375 CD GLU B 298 14.832 53.500 69.965 1.00 80.94 2376 OE1 GLU B 298 15.469 52.375 69.667 1.00 84.64 2377 OE2 GLU B 298 14.023 54.023 69.092 1.00 81.00 2378 C GLU B 298 18.476 56.177 71.163 1.00 51.80 2379 O GLU B 298 18.051 57.151 71.560 1.00 49.60 2380 N ASP B 299 19.539 55.564 71.522 1.00 47.86 2381 CA ASP B 299 20.497 56.312 72.187 1.00 51.84 2382 CB ASP B 299 21.629 55.407 72.765 1.00 45.01 2383 CG ASP B 299 21.158 54.667 73.927 1.00 44.83 2384 OD1 ASP B 299 20.149 55.035 74.559 1.00 45.60 2385 OD2 ASP B 299 21.877 53.829 74.379 1.00 48.45 2386 C ASP B 299 21.047 57.463 71.272 1.00 52.94 2387 O ASP B 299 21.683 58.425 71.778 1.00 52.05 2388 N GLN B 300 20.901 57.196 69.969 1.00 50.18 2389 CA GLN B 300 21.413 58.153 68.979 1.00 55.61 2390 CB GLN B 300 21.591 57.640 67.491 1.00 52.76 2391 CG GLN B 300 22.617 56.690 67.374 1.00 55.34 2392 CD GLN B 300 22.653 56.046 65.932 1.00 63.28 2393 OE1 GLN B 300 23.422 55.074 65.703 1.00 52.87 2394 NE2 GLN B 300 21.958 56.692 65.000 1.00 60.94 2395 C GLN B 300 20.536 59.360 68.892 1.00 51.50 2396 O GLN B 300 21.095 60.490 69.012 1.00 53.21 2397 N ILE B 301 19.309 59.133 69.107 1.00 43.21 2398 CA ILE B 301 18.474 60.115 69.204 1.00 44.82 2399 CB ILE B 301 16.916 59.617 68.821 1.00 44.76 2400 CG1 ILE B 301 15.936 60.581 69.007 1.00 41.61 2401 CD1 ILE B 301 14.749 60.228 69.501 1.00 46.97 2402 CG2 ILE B 301 16.727 58.642 69.732 1.00 50.79 2403 C ILE B 301 18.420 60.868 70.494 1.00 41.63 2404 O ILE B 301 18.064 62.079 70.638 1.00 35.91 2405 N ALA B 302 18.534 60.080 71.496 1.00 39.00 2406 CA ALA B 302 18.488 60.611 72.876 1.00 38.93 2407 CB ALA B 302 18.648 59.533 73.816 1.00 44.04 2408 C ALA B 302 19.757 61.609 73.031 1.00 39.30 2409 O ALA B 302 19.483 62.764 73.349 1.00 39.22 2410 N LEU B 303 20.888 61.185 72.606 1.00 38.64 2411 CA LEU B 303 22.029 61.991 72.654 1.00 45.39 2412 CB LEU B 303 23.367 61.219 72.213 1.00 42.55 2413 CG LEU B 303 23.701 60.032 73.096 1.00 37.97 2414 CD1 LEU B 303 25.083 59.516 72.592 1.00 28.68 2415 CD2 LEU B 303 23.953 60.625 74.516 1.00 29.84 2416 C LEU B 303 21.996 63.289 71.725 1.00 45.65 2417 O LEU B 303 22.299 64.460 72.187 1.00 40.78 2418 N LEU B 304 21.471 63.118 70.525 1.00 43.87 2419 CA LEU B 304 21.340 64.276 69.612 1.00 40.36 2420 CB LEU B 304 21.053 63.778 68.207 1.00 40.77 2421 CG LEU B 304 21.675 64.382 67.012 1.00 40.36 2422 CD1 LEU B 304 23.281 64.959 67.303 1.00 54.16 2423 CD2 LEU B 304 21.898 63.180 66.176 1.00 42.16 2424 C LEU B 304 20.229 65.320 70.153 1.00 38.75 2425 O LEU B 304 20.437 66.483 70.014 1.00 36.35 2426 N LYS B 305 19.163 64.828 70.594 1.00 37.85 2427 CA LYS B 305 18.097 65.705 71.029 1.00 45.89 2428 CB LYS B 305 16.814 64.982 71.652 1.00 44.35 2429 CG LYS B 305 15.700 64.899 70.682 1.00 61.08 2430 CD LYS B 305 14.407 64.197 71.605 1.00 60.08 2431 CE LYS B 305 13.300 64.282 70.594 1.00 64.90 2432 NZ LYS B 305 12.007 63.803 71.012 1.00 69.57 2433 C LYS B 305 18.599 66.663 72.127 1.00 46.48 2434 O LYS B 305 18.021 67.794 72.370 1.00 42.93 2435 N ALA B 306 19.386 66.009 73.098 1.00 44.50 2436 CA ALA B 306 19.806 66.844 74.329 1.00 40.48 2437 CB ALA B 306 20.225 65.957 75.470 1.00 40.95 2438 C ALA B 306 20.937 67.763 73.946 1.00 42.42 2439 O ALA B 306 21.034 68.874 74.591 1.00 41.21 2440 N SER B 307 21.821 67.339 72.987 1.00 38.22 2441 CA SER B 307 22.925 68.166 72.715 1.00 43.23 2442 CB SER B 307 24.204 67.314 72.686 1.00 42.01 2443 OG SER B 307 24.360 66.547 71.741 1.00 42.17 2444 C SER B 307 22.856 69.187 71.561 1.00 44.87 2445 O SER B 307 23.725 69.994 71.374 1.00 42.46 2446 N THR B 308 21.653 69.113 70.911 1.00 45.36 2447 CA THR B 308 21.517 69.993 69.685 1.00 45.53 2448 CB THR B 308 19.923 69.707 69.135 1.00 48.08 2449 OG1 THR B 308 20.273 68.570 68.313 1.00 48.56 2450 CG2 THR B 308 19.445 70.978 68.212 1.00 43.38 2451 C THR B 308 21.632 71.579 70.125 1.00 39.58 2452 O THR B 308 22.534 72.152 69.585 1.00 38.96 2453 N ILE B 309 20.758 72.042 70.902 1.00 39.26 2454 CA ILE B 309 20.846 73.393 71.489 1.00 37.98 2455 CB ILE B 309 19.882 73.642 72.397 1.00 37.29 2456 CG1 ILE B 309 19.695 75.107 72.719 1.00 42.58 2457 CD1 ILE B 309 19.585 75.887 71.264 1.00 48.19 2458 CG2 ILE B 309 19.977 72.945 73.613 1.00 41.10 2459 C ILE B 309 22.088 73.772 72.134 1.00 41.77 2460 O ILE B 309 22.443 74.978 72.097 1.00 39.52 2461 N GLU B 310 22.977 72.761 72.526 1.00 37.45 2462 CA GLU B 310 24.210 73.186 73.072 1.00 39.85 2463 CB GLU B 310 24.799 72.120 74.300 1.00 31.33 2464 CG GLU B 310 23.692 71.853 75.284 1.00 33.40 2465 CD GLU B 310 24.089 70.879 76.384 1.00 26.27 2466 OE1 GLU B 310 23.256 70.555 77.138 1.00 32.27 2467 OE2 GLU B 310 25.214 70.462 76.402 1.00 33.68 2468 C GLU B 310 25.093 73.360 72.066 1.00 40.80 2469 O GLU B 310 26.168 74.152 72.192 1.00 42.61 2470 N ILE B 311 25.157 72.387 71.084 1.00 40.99 2471 CA ILE B 311 26.170 72.590 69.923 1.00 36.36 2472 CB ILE B 311 26.066 71.421 69.009 1.00 42.14 2473 CG1 ILE B 311 26.191 70.196 69.587 1.00 39.35 2474 CD1 ILE B 311 25.826 68.938 68.734 1.00 41.03 2475 CG2 ILE B 311 27.183 71.480 67.817 1.00 43.34 2476 C ILE B 311 25.828 73.940 69.187 1.00 37.43 2477 O ILE B 311 26.810 74.547 68.730 1.00 41.57 2478 N MET B 312 24.620 74.369 69.197 1.00 35.81 2479 CA MET B 312 24.241 75.538 68.627 1.00 48.06 2480 CB MET B 312 22.632 75.799 68.411 1.00 50.08 2481 CG MET B 312 22.017 74.785 67.347 1.00 40.55 2482 SD MET B 312 20.256 75.219 67.641 1.00 56.76 2483 CE MET B 312 19.709 73.976 68.035 1.00 60.29 2484 C MET B 312 24.596 76.870 69.414 1.00 50.66 2485 O MET B 312 24.526 77.956 68.867 1.00 45.83 2486 N LEU B 313 24.690 76.736 70.718 1.00 44.93 2487 CA LEU B 313 25.178 77.734 71.666 1.00 41.55 2488 CB LEU B 313 24.975 77.413 73.033 1.00 29.22 2489 CG LEU B 313 23.619 77.798 73.316 1.00 32.64 2490 CD1 LEU B 313 22.989 77.020 74.564 1.00 39.23 2491 CD2 LEU B 313 23.443 79.305 73.363 1.00 30.06 2492 C LEU B 313 26.632 77.770 71.384 1.00 41.42 2493 O LEU B 313 27.115 78.864 71.203 1.00 39.31 2494 N LEU B 314 27.252 76.599 71.047 1.00 41.28 2495 CA LEU B 314 28.694 76.475 70.777 1.00 40.18 2496 CB LEU B 314 29.168 75.185 70.928 1.00 37.72 2497 CG LEU B 314 29.743 74.653 72.251 1.00 45.82 2498 CD1 LEU B 314 30.190 73.124 72.172 1.00 36.99 2499 CD2 LEU B 314 31.042 75.397 72.663 1.00 43.47 2500 C LEU B 314 29.115 77.121 69.392 1.00 54.06 2501 O LEU B 314 30.241 77.751 69.180 1.00 49.68 2502 N GLU B 315 28.345 76.790 68.346 1.00 60.26 2503 CA GLU B 315 28.711 77.225 66.958 1.00 57.22 2504 CB GLU B 315 27.789 76.349 65.926 1.00 54.82 2505 CG GLU B 315 28.473 74.937 65.578 1.00 47.55 2506 CD GLU B 315 29.959 75.061 65.018 1.00 66.56 2507 OE1 GLU B 315 30.378 76.107 64.386 1.00 71.34 2508 OE2 GLU B 315 30.873 74.212 65.250 1.00 66.80 2509 C GLU B 315 28.218 78.738 66.962 1.00 57.50 2510 O GLU B 315 28.795 79.532 66.191 1.00 59.15 2511 N THR B 316 27.217 79.105 67.678 1.00 52.78 2512 CA THR B 316 26.838 80.531 67.733 1.00 51.20 2513 CB THR B 316 25.834 80.898 68.717 1.00 57.50 2514 OG1 THR B 316 24.441 80.632 68.221 1.00 64.56 2515 CG2 THR B 316 25.756 82.238 69.198 1.00 52.91 2516 C THR B 316 27.989 81.288 68.430 1.00 57.95 2517 O THR B 316 28.623 82.231 67.837 1.00 61.85 2518 N ALA B 317 28.578 80.706 69.411 1.00 57.22 2519 CA ALA B 317 29.641 81.279 70.058 1.00 63.28 2520 CB ALA B 317 30.121 80.592 71.332 1.00 55.94 2521 C ALA B 317 30.798 81.416 69.076 1.00 62.31 2522 O ALA B 317 31.564 82.528 69.007 1.00 67.15 2523 N ARG B 318 31.047 80.390 68.426 1.00 61.09 2524 CA ARG B 318 32.295 80.537 67.603 1.00 63.74 2525 CB ARG B 318 32.730 79.203 67.163 1.00 64.66 2526 CG ARG B 318 32.441 78.894 65.959 1.00 66.74 2527 CD ARG B 318 33.501 77.925 65.208 1.00 70.68 2528 NE ARG B 318 32.930 76.486 64.841 1.00 71.26 2529 CZ ARG B 318 33.768 75.499 64.497 1.00 67.45 2530 NH1 ARG B 318 34.890 75.807 64.276 1.00 67.59 2531 NH2 ARG B 318 33.505 74.292 64.199 1.00 77.12 2532 C ARG B 318 32.073 81.428 66.369 1.00 64.55 2533 O ARG B 318 33.008 81.604 65.611 1.00 63.09 2534 N ARG B 319 30.860 82.095 66.351 1.00 59.57 2535 CA ARG B 319 30.765 82.999 65.160 1.00 68.49 2536 CB ARG B 319 29.473 82.521 64.326 1.00 61.30 2537 CG ARG B 319 30.060 81.853 63.067 1.00 69.41 2538 CD ARG B 319 29.235 80.581 62.763 1.00 73.24 2539 NE ARG B 319 30.175 79.647 62.098 1.00 75.10 2540 CZ ARG B 319 29.984 78.369 62.112 1.00 79.76 2541 NH1 ARG B 319 28.933 77.857 62.748 1.00 73.63 2542 NH2 ARG B 319 30.844 77.583 61.539 1.00 68.15 2543 C ARG B 319 30.514 84.508 65.637 1.00 65.44 2544 O ARG B 319 29.829 85.398 64.966 1.00 61.07 2545 N TYR B 320 30.987 84.701 66.895 1.00 63.21 2546 CA TYR B 320 30.819 85.999 67.487 1.00 61.59 2547 CB TYR B 320 30.775 85.901 68.977 1.00 58.07 2548 CG TYR B 320 30.812 87.230 69.711 1.00 53.02 2549 CD1 TYR B 320 31.930 87.725 70.264 1.00 54.55 2550 CE1 TYR B 320 31.836 88.964 70.950 1.00 53.67 2551 CZ TYR B 320 30.717 89.582 71.153 1.00 53.87 2552 OH TYR B 320 30.609 90.785 71.918 1.00 54.97 2553 CE2 TYR B 320 29.522 88.994 70.707 1.00 56.50 2554 CD2 TYR B 320 29.645 87.868 69.986 1.00 58.99 2555 C TYR B 320 31.899 86.832 67.011 1.00 55.23 2556 O TYR B 320 32.878 86.389 66.887 1.00 58.77 2557 N ASN B 321 31.580 88.000 66.684 1.00 65.16 2558 CA ASN B 321 32.583 89.035 66.203 1.00 67.00 2559 CB ASN B 321 31.783 89.909 65.073 1.00 65.00 2560 CG ASN B 321 32.836 90.583 64.077 1.00 68.86 2561 OD1 ASN B 321 32.218 91.221 63.132 1.00 76.03 2562 ND2 ASN B 321 34.315 90.514 64.302 1.00 56.08 2563 C ASN B 321 32.879 89.996 67.279 1.00 60.46 2564 O ASN B 321 31.942 90.604 67.867 1.00 65.67 2565 N HIS B 322 34.074 90.206 67.470 1.00 68.48 2566 CA HIS B 322 34.486 91.228 68.587 1.00 73.34 2567 CB HIS B 322 35.894 90.991 69.233 1.00 71.05 2568 CG HIS B 322 35.890 91.351 70.731 1.00 82.08 2569 ND1 HIS B 322 34.747 91.147 71.589 1.00 87.14 2570 CE1 HIS B 322 35.017 91.506 72.853 1.00 73.65 2571 NE2 HIS B 322 36.326 91.869 72.867 1.00 80.65 2572 CD2 HIS B 322 36.862 91.841 71.558 1.00 72.77 2573 C HIS B 322 34.164 92.768 68.375 1.00 66.40 2574 O HIS B 322 33.837 93.373 69.334 1.00 67.21 2575 N GLU B 323 34.174 93.291 67.174 1.00 71.21 2576 CA GLU B 323 33.707 94.564 67.212 1.00 77.68 2577 CB GLU B 323 34.541 95.721 66.906 1.00 80.99 2578 CG GLU B 323 34.254 96.831 68.101 1.00 81.52 2579 CD GLU B 323 34.486 98.300 67.726 1.00 90.73 2580 OE1 GLU B 323 35.475 98.510 66.917 1.00 102.87 2581 OE2 GLU B 323 33.744 99.246 68.246 1.00 91.80 2582 C GLU B 323 32.281 94.831 66.835 1.00 79.43 2583 O GLU B 323 31.626 95.785 67.535 1.00 80.47 2584 N THR B 324 31.741 93.954 65.982 1.00 72.14 2585 CA THR B 324 30.345 94.187 65.612 1.00 69.64 2586 CB THR B 324 29.930 93.339 64.552 1.00 67.93 2587 OG1 THR B 324 30.970 92.349 64.445 1.00 79.89 2588 CG2 THR B 324 30.008 94.074 63.113 1.00 72.90 2589 C THR B 324 29.613 93.736 66.704 1.00 71.35 2590 O THR B 324 28.393 93.991 66.829 1.00 70.48 2591 N GLU B 325 30.336 92.943 67.540 1.00 73.92 2592 CA GLU B 325 29.628 92.339 68.693 1.00 75.54 2593 CB GLU B 325 29.186 93.383 69.839 1.00 71.78 2594 CG GLU B 325 30.258 94.467 69.915 1.00 78.66 2595 CD GLU B 325 30.335 95.091 71.351 1.00 77.65 2596 OE1 GLU B 325 29.404 95.606 71.855 1.00 79.58 2597 OE2 GLU B 325 31.348 94.845 72.040 1.00 82.11 2598 C GLU B 325 28.260 91.603 68.082 1.00 70.73 2599 O GLU B 325 27.097 91.742 68.635 1.00 66.33 2600 N CYS B 326 28.494 91.022 66.965 1.00 64.52 2601 CA CYS B 326 27.337 90.359 66.312 1.00 67.07 2602 CB CYS B 326 26.830 91.209 64.945 1.00 74.74 2603 SG CYS B 326 25.854 92.706 65.368 1.00 68.93 2604 C CYS B 326 27.664 88.903 65.914 1.00 62.47 2605 O CYS B 326 28.803 88.540 65.629 1.00 61.32 2606 N ILE B 327 26.596 88.125 65.896 1.00 62.77 2607 CA ILE B 327 26.825 86.679 65.506 1.00 65.69 2608 CB ILE B 327 25.734 85.833 66.108 1.00 62.81 2609 CG1 ILE B 327 25.699 85.979 67.621 1.00 57.04 2610 CD1 ILE B 327 27.160 85.753 68.002 1.00 57.90 2611 CG2 ILE B 327 25.925 84.543 65.811 1.00 56.79 2612 C ILE B 327 26.814 86.560 63.980 1.00 70.85 2613 O ILE B 327 25.808 87.044 63.339 1.00 68.43 2614 N THR B 328 27.826 85.849 63.444 1.00 74.31 2615 CA THR B 328 27.862 85.617 62.027 1.00 77.88 2616 CB THR B 328 29.079 85.878 61.499 1.00 76.18 2617 OG1 THR B 328 29.054 86.699 60.193 1.00 87.07 2618 CG2 THR B 328 29.651 84.611 61.306 1.00 69.42 2619 C THR B 328 27.538 84.230 61.518 1.00 86.32 2620 O THR B 328 27.848 83.224 62.152 1.00 88.10 2621 N PHE B 329 26.775 84.166 60.411 1.00 91.72 2622 CA PHE B 329 26.452 82.823 59.890 1.00 96.31 2623 CB PHE B 329 24.995 82.831 59.432 1.00 96.03 2624 CG PHE B 329 24.811 83.479 58.144 1.00 96.98 2625 CD1 PHE B 329 24.808 82.750 56.887 1.00 108.83 2626 CE1 PHE B 329 24.702 83.429 55.570 1.00 111.72 2627 CZ PHE B 329 24.650 84.895 55.544 1.00 114.57 2628 CE2 PHE B 329 24.715 85.558 56.851 1.00 113.77 2629 CD2 PHE B 329 24.787 84.778 58.122 1.00 98.68 2630 C PHE B 329 27.463 82.596 58.771 1.00 97.95 2631 O PHE B 329 28.091 81.513 58.593 1.00 102.22 2632 N LEU B 330 27.801 83.692 58.122 1.00 99.46 2633 CA LEU B 330 28.763 83.609 57.048 1.00 99.12 2634 CB LEU B 330 28.448 82.496 56.112 1.00 98.10 2635 CG LEU B 330 29.481 82.278 54.984 1.00 102.41 2636 CD1 LEU B 330 31.027 82.287 55.382 1.00 100.19 2637 CD2 LEU B 330 29.081 80.857 54.343 1.00 112.83 2638 C LEU B 330 28.849 84.952 56.309 1.00 99.47 2639 O LEU B 330 29.974 85.384 56.049 1.00 103.83 2640 N LYS B 331 27.744 85.613 55.952 1.00 96.96 2641 CA LYS B 331 27.831 86.934 55.298 1.00 98.37 2642 CB LYS B 331 27.268 86.980 53.911 1.00 102.58 2643 CG LYS B 331 28.113 86.052 52.923 1.00 107.93 2644 CD LYS B 331 27.036 85.406 51.700 1.00 105.27 2645 CE LYS B 331 27.842 84.412 50.674 1.00 106.60 2646 NZ LYS B 331 27.126 83.719 49.532 1.00 87.77 2647 C LYS B 331 27.040 87.899 55.991 1.00 97.46 2648 O LYS B 331 26.720 87.723 57.162 1.00 100.77 2649 N ASP B 332 26.673 88.950 55.315 1.00 95.42 2650 CA ASP B 332 25.895 89.988 55.948 1.00 95.39 2651 CB ASP B 332 25.240 90.915 54.941 1.00 99.84 2652 CG ASP B 332 26.248 92.060 54.549 1.00 106.41 2653 OD1 ASP B 332 26.148 92.556 53.387 1.00 115.62 2654 OD2 ASP B 332 27.234 92.504 55.365 1.00 109.27 2655 C ASP B 332 24.930 89.807 57.002 1.00 93.78 2656 O ASP B 332 24.788 90.634 57.997 1.00 93.30 2657 N PHE B 333 24.205 88.751 56.815 1.00 92.59 2658 CA PHE B 333 23.288 88.392 57.908 1.00 93.01 2659 CB PHE B 333 22.366 87.298 57.381 1.00 93.27 2660 CG PHE B 333 21.276 87.850 56.476 1.00 100.71 2661 CD1 PHE B 333 21.676 88.659 55.313 1.00 104.96 2662 CE1 PHE B 333 20.671 89.353 54.480 1.00 103.05 2663 CZ PHE B 333 19.148 89.224 54.829 1.00 107.06 2664 CE2 PHE B 333 18.761 88.347 56.090 1.00 110.04 2665 CD2 PHE B 333 19.842 87.733 56.870 1.00 102.86 2666 C PHE B 333 23.996 88.040 59.385 1.00 90.88 2667 O PHE B 333 24.298 86.882 59.697 1.00 90.25 2668 N THR B 334 24.154 89.078 60.185 1.00 84.40 2669 CA THR B 334 24.695 89.099 61.408 1.00 83.07 2670 CB THR B 334 26.005 89.869 61.294 1.00 83.97 2671 OG1 THR B 334 26.424 89.498 60.004 1.00 83.93 2672 CG2 THR B 334 27.211 89.293 62.280 1.00 86.33 2673 C THR B 334 23.728 89.756 62.294 1.00 82.45 2674 O THR B 334 22.728 90.575 61.957 1.00 80.83 2675 N TYR B 335 23.975 89.349 63.551 1.00 75.81 2676 CA TYR B 335 22.942 89.947 64.572 1.00 75.00 2677 CB TYR B 335 21.682 89.016 64.794 1.00 74.93 2678 CG TYR B 335 21.364 88.123 63.677 1.00 78.20 2679 CD1 TYR B 335 22.187 87.145 63.030 1.00 77.22 2680 CE1 TYR B 335 21.444 86.449 61.924 1.00 77.92 2681 CZ TYR B 335 20.199 86.781 61.452 1.00 70.57 2682 OH TYR B 335 19.742 86.051 60.284 1.00 87.36 2683 CE2 TYR B 335 19.531 87.679 62.108 1.00 89.00 2684 CD2 TYR B 335 20.086 88.329 63.181 1.00 91.31 2685 C TYR B 335 23.422 90.459 65.896 1.00 69.32 2686 O TYR B 335 24.454 90.253 66.261 1.00 72.11 2687 N SER B 336 22.610 91.199 66.547 1.00 68.57 2688 CA SER B 336 22.786 91.985 67.682 1.00 62.50 2689 CB SER B 336 22.545 93.468 67.237 1.00 62.77 2690 OG SER B 336 21.204 93.805 67.256 1.00 54.34 2691 C SER B 336 21.839 91.719 68.722 1.00 56.95 2692 O SER B 336 20.837 91.110 68.474 1.00 55.57 2693 N LYS B 337 22.245 91.980 69.906 1.00 59.06 2694 CA LYS B 337 21.401 91.672 71.082 1.00 65.18 2695 CB LYS B 337 21.981 92.085 72.472 1.00 62.25 2696 CG LYS B 337 23.158 91.183 72.975 1.00 75.18 2697 CD LYS B 337 24.128 91.873 74.164 1.00 69.42 2698 CE LYS B 337 23.258 92.166 75.429 1.00 82.02 2699 NZ LYS B 337 22.988 93.840 75.729 1.00 88.14 2700 C LYS B 337 19.898 92.123 70.979 1.00 65.87 2701 O LYS B 337 18.790 91.514 71.305 1.00 62.80 2702 N ASP B 338 19.841 93.263 70.436 1.00 68.89 2703 CA ASP B 338 18.509 93.856 70.128 1.00 66.22 2704 CB ASP B 338 18.759 95.420 69.801 1.00 67.25 2705 CG ASP B 338 19.017 96.214 71.180 1.00 78.76 2706 OD1 ASP B 338 18.059 96.369 72.063 1.00 80.15 2707 OD2 ASP B 338 20.106 96.727 71.473 1.00 82.82 2708 C ASP B 338 17.752 93.074 69.013 1.00 63.09 2709 O ASP B 338 16.439 92.773 69.199 1.00 62.26 2710 N ASP B 339 18.472 92.767 67.957 1.00 53.26 2711 CA ASP B 339 17.730 92.045 67.051 1.00 60.52 2712 CB ASP B 339 18.725 91.352 65.998 1.00 61.80 2713 CG ASP B 339 19.365 92.313 65.200 1.00 63.07 2714 OD1 ASP B 339 18.679 93.307 64.790 1.00 70.88 2715 OD2 ASP B 339 20.437 92.232 64.854 1.00 67.08 2716 C ASP B 339 16.863 90.880 67.818 1.00 65.06 2717 O ASP B 339 15.506 90.720 67.561 1.00 61.45 2718 N PHE B 340 17.662 90.149 68.728 1.00 61.06 2719 CA PHE B 340 17.220 89.050 69.494 1.00 60.32 2720 CB PHE B 340 18.300 88.290 70.495 1.00 56.10 2721 CG PHE B 340 19.434 87.535 69.783 1.00 47.88 2722 CD1 PHE B 340 20.202 88.004 68.847 1.00 47.77 2723 CE1 PHE B 340 21.132 87.399 68.149 1.00 45.70 2724 CZ PHE B 340 21.320 85.899 68.401 1.00 55.25 2725 CE2 PHE B 340 20.409 85.312 69.255 1.00 49.14 2726 CD2 PHE B 340 19.482 86.220 69.988 1.00 55.69 2727 C PHE B 340 16.017 89.484 70.175 1.00 62.83 2728 O PHE B 340 14.955 88.699 70.110 1.00 67.32 2729 N HIS B 341 16.072 90.651 70.815 1.00 64.53 2730 CA HIS B 341 14.814 91.067 71.551 1.00 71.00 2731 CB HIS B 341 15.007 92.393 72.368 1.00 72.94 2732 CG HIS B 341 16.122 92.302 73.297 1.00 69.49 2733 ND1 HIS B 341 17.464 92.315 72.856 1.00 73.08 2734 CE1 HIS B 341 18.264 92.173 73.954 1.00 78.41 2735 NE2 HIS B 341 17.479 91.902 75.023 1.00 82.09 2736 CD2 HIS B 341 16.126 91.990 74.616 1.00 77.34 2737 C HIS B 341 13.616 91.295 70.652 1.00 66.90 2738 O HIS B 341 12.510 90.986 71.057 1.00 60.48 2739 N ARG B 342 14.012 91.759 69.483 1.00 67.75 2740 CA ARG B 342 13.037 91.936 68.350 1.00 73.18 2741 CB ARG B 342 13.829 92.432 67.008 1.00 74.27 2742 CG ARG B 342 13.585 94.024 66.904 1.00 61.57 2743 CD ARG B 342 14.575 94.742 66.346 1.00 60.29 2744 NE ARG B 342 14.705 96.162 66.846 1.00 71.95 2745 CZ ARG B 342 15.904 96.835 67.255 1.00 67.30 2746 NH1 ARG B 342 17.125 96.343 66.996 1.00 70.43 2747 NH2 ARG B 342 15.916 98.007 67.794 1.00 68.99 2748 C ARG B 342 12.209 90.669 67.936 1.00 70.00 2749 O ARG B 342 10.877 90.653 67.865 1.00 68.24 2750 N ALA B 343 12.938 89.619 67.870 1.00 65.37 2751 CA ALA B 343 12.336 88.282 67.551 1.00 57.52 2752 CB ALA B 343 13.328 87.443 66.900 1.00 52.06 2753 C ALA B 343 11.623 87.817 68.626 1.00 60.04 2754 O ALA B 343 10.975 86.799 68.619 1.00 63.88 2755 N GLY B 344 11.558 88.588 69.693 1.00 65.13 2756 CA GLY B 344 10.708 88.116 70.932 1.00 63.20 2757 C GLY B 344 11.503 87.321 72.005 1.00 61.28 2758 O GLY B 344 11.032 86.873 73.056 1.00 65.97 2759 N LEU B 345 12.792 87.264 71.820 1.00 64.60 2760 CA LEU B 345 13.716 86.536 72.858 1.00 62.54 2761 CB LEU B 345 15.061 86.201 72.183 1.00 57.64 2762 CG LEU B 345 15.157 85.573 70.740 1.00 62.93 2763 CD1 LEU B 345 16.123 84.434 70.841 1.00 76.97 2764 CD2 LEU B 345 13.802 85.098 69.952 1.00 59.00 2765 C LEU B 345 13.874 87.246 73.974 1.00 63.15 2766 O LEU B 345 14.359 88.327 73.807 1.00 76.57 2767 N GLN B 346 13.552 86.790 75.143 1.00 59.15 2768 CA GLN B 346 13.725 87.487 76.318 1.00 64.37 2769 CB GLN B 346 12.880 86.738 77.398 1.00 63.91 2770 CG GLN B 346 13.290 85.212 77.500 1.00 73.12 2771 CD GLN B 346 12.419 84.464 78.569 1.00 71.74 2772 OE1 GLN B 346 12.641 83.369 78.841 1.00 63.96 2773 NE2 GLN B 346 11.299 85.087 79.033 1.00 70.06 2774 C GLN B 346 15.261 87.723 76.891 1.00 65.83 2775 O GLN B 346 16.065 86.955 76.681 1.00 70.72 2776 N VAL B 347 15.586 88.724 77.526 1.00 59.97 2777 CA VAL B 347 16.843 89.122 77.777 1.00 58.82 2778 CB VAL B 347 16.779 90.406 78.635 1.00 59.13 2779 CG1 VAL B 347 15.764 90.275 80.040 1.00 60.73 2780 CG2 VAL B 347 18.034 90.918 79.113 1.00 67.69 2781 C VAL B 347 17.480 88.087 78.667 1.00 64.04 2782 O VAL B 347 18.669 88.031 78.690 1.00 62.73 2783 N GLU B 348 16.681 87.362 79.495 1.00 61.58 2784 CA GLU B 348 17.082 86.396 80.301 1.00 56.15 2785 CB GLU B 348 15.957 85.918 81.173 1.00 61.69 2786 CG GLU B 348 14.512 86.339 80.411 1.00 73.26 2787 CD GLU B 348 13.773 87.410 81.118 1.00 67.05 2788 OE1 GLU B 348 12.760 87.178 81.913 1.00 70.33 2789 OE2 GLU B 348 14.273 88.437 80.948 1.00 69.87 2790 C GLU B 348 17.671 85.224 79.631 1.00 57.15 2791 O GLU B 348 18.327 84.398 80.339 1.00 59.19 2792 N PHE B 349 17.792 85.189 78.303 1.00 55.88 2793 CA PHE B 349 18.444 84.324 77.568 1.00 46.69 2794 CB PHE B 349 17.345 83.467 76.750 1.00 54.67 2795 CG PHE B 349 17.898 82.462 75.751 1.00 56.05 2796 CD1 PHE B 349 18.897 81.521 76.196 1.00 57.34 2797 CE1 PHE B 349 19.455 80.643 75.414 1.00 52.74 2798 CZ PHE B 349 19.003 80.373 74.054 1.00 53.17 2799 CE2 PHE B 349 18.060 81.181 73.542 1.00 47.95 2800 CD2 PHE B 349 17.487 82.349 74.549 1.00 59.50 2801 C PHE B 349 19.381 84.858 76.696 1.00 46.68 2802 O PHE B 349 20.508 84.295 76.491 1.00 49.18 2803 N ILE B 350 19.087 85.971 76.173 1.00 44.99 2804 CA ILE B 350 20.099 86.710 75.203 1.00 47.50 2805 CB ILE B 350 19.427 88.047 74.637 1.00 47.55 2806 CG1 ILE B 350 18.113 87.541 73.797 1.00 48.34 2807 CD1 ILE B 350 17.011 88.771 74.039 1.00 59.54 2808 CG2 ILE B 350 20.235 88.800 73.720 1.00 55.42 2809 C ILE B 350 21.452 87.192 75.913 1.00 44.46 2810 O ILE B 350 22.534 86.952 75.262 1.00 45.96 2811 N ASN B 351 21.327 87.665 77.121 1.00 40.71 2812 CA ASN B 351 22.644 88.215 77.719 1.00 47.42 2813 CB ASN B 351 22.251 88.814 79.045 1.00 45.36 2814 CG ASN B 351 21.514 90.145 78.898 1.00 50.17 2815 OD1 ASN B 351 21.495 90.817 77.832 1.00 51.44 2816 ND2 ASN B 351 20.830 90.523 80.022 1.00 50.37 2817 C ASN B 351 23.588 86.934 78.059 1.00 41.66 2818 O ASN B 351 24.725 86.884 77.587 1.00 39.55 2819 N PRO B 352 22.937 85.903 78.537 1.00 36.22 2820 CA PRO B 352 23.682 84.683 78.700 1.00 34.72 2821 CB PRO B 352 22.753 83.723 79.279 1.00 36.88 2822 CG PRO B 352 21.811 84.653 80.164 1.00 46.71 2823 CD PRO B 352 21.621 85.892 79.041 1.00 35.82 2824 C PRO B 352 24.237 84.224 77.530 1.00 36.30 2825 O PRO B 352 25.419 83.761 77.383 1.00 40.39 2826 N ILE B 353 23.474 84.391 76.372 1.00 41.10 2827 CA ILE B 353 24.122 83.951 75.074 1.00 39.30 2828 CB ILE B 353 23.105 83.987 74.027 1.00 42.13 2829 CG1 ILE B 353 21.891 82.903 74.260 1.00 43.94 2830 CD1 ILE B 353 20.748 82.937 73.139 1.00 35.70 2831 CG2 ILE B 353 23.816 83.728 72.610 1.00 32.18 2832 C ILE B 353 25.291 84.644 74.751 1.00 38.70 2833 O ILE B 353 26.320 84.176 74.244 1.00 38.63 2834 N PHE B 354 25.195 85.973 75.050 1.00 47.94 2835 CA PHE B 354 26.388 86.815 74.814 1.00 50.23 2836 CB PHE B 354 25.749 88.409 74.654 1.00 50.03 2837 CG PHE B 354 25.108 88.608 73.274 1.00 55.16 2838 CD1 PHE B 354 23.865 88.155 73.072 1.00 55.03 2839 CE1 PHE B 354 23.259 88.195 71.851 1.00 54.17 2840 CZ PHE B 354 23.881 88.570 70.739 1.00 56.66 2841 CE2 PHE B 354 25.226 89.026 70.978 1.00 68.88 2842 CD2 PHE B 354 25.851 88.951 72.206 1.00 45.25 2843 C PHE B 354 27.526 86.798 75.713 1.00 40.23 2844 O PHE B 354 28.733 86.925 75.321 1.00 43.29 2845 N GLU B 355 27.211 86.597 76.921 1.00 40.93 2846 CA GLU B 355 28.523 86.397 77.978 1.00 37.60 2847 CB GLU B 355 27.902 86.380 79.277 1.00 44.07 2848 CG GLU B 355 27.453 87.768 79.784 1.00 40.87 2849 CD GLU B 355 26.128 87.705 80.643 1.00 54.01 2850 OE1 GLU B 355 25.652 86.568 81.136 1.00 55.64 2851 OE2 GLU B 355 25.515 88.734 80.860 1.00 57.08 2852 C GLU B 355 29.098 85.076 77.698 1.00 35.92 2853 O GLU B 355 30.454 84.938 77.539 1.00 34.43 2854 N PHE B 356 28.248 84.085 77.222 1.00 36.19 2855 CA PHE B 356 28.898 82.751 76.709 1.00 36.57 2856 CB PHE B 356 27.756 81.632 76.594 1.00 35.87 2857 CG PHE B 356 28.340 80.354 76.177 1.00 35.72 2858 CD1 PHE B 356 29.015 79.569 77.101 1.00 33.72 2859 CE1 PHE B 356 29.544 78.291 76.771 1.00 39.96 2860 CZ PHE B 356 29.540 77.881 75.360 1.00 40.70 2861 CE2 PHE B 356 28.833 78.674 74.387 1.00 32.50 2862 CD2 PHE B 356 28.366 79.897 74.811 1.00 41.44 2863 C PHE B 356 29.852 82.882 75.662 1.00 33.57 2864 O PHE B 356 31.075 82.374 75.608 1.00 35.52 2865 N SER B 357 29.407 83.703 74.694 1.00 34.35 2866 CA SER B 357 30.297 83.917 73.570 1.00 33.77 2867 CB SER B 357 29.364 84.692 72.534 1.00 47.00 2868 OG SER B 357 27.969 84.212 72.666 1.00 41.44 2869 C SER B 357 31.489 84.718 73.839 1.00 31.31 2870 O SER B 357 32.573 84.504 73.262 1.00 32.90 2871 N ARG B 358 31.360 85.621 74.748 1.00 34.45 2872 CA ARG B 358 32.615 86.391 75.106 1.00 34.95 2873 CB ARG B 358 32.189 87.572 76.022 1.00 39.55 2874 CG ARG B 358 31.744 88.997 75.200 1.00 41.56 2875 CD ARG B 358 31.059 89.917 76.494 1.00 44.77 2876 NE ARG B 358 29.771 90.142 76.015 1.00 45.47 2877 CZ ARG B 358 28.789 90.137 76.850 1.00 49.55 2878 NH1 ARG B 358 28.973 89.970 78.162 1.00 42.75 2879 NH2 ARG B 358 27.510 90.492 76.442 1.00 56.37 2880 C ARG B 358 33.558 85.457 75.884 1.00 35.05 2881 O ARG B 358 34.790 85.462 75.700 1.00 35.35 2882 N ALA B 359 32.926 84.629 76.657 1.00 35.52 2883 CA ALA B 359 33.812 83.717 77.462 1.00 35.54 2884 CB ALA B 359 32.818 82.947 78.509 1.00 31.23 2885 C ALA B 359 34.462 82.680 76.523 1.00 37.97 2886 O ALA B 359 35.668 82.350 76.637 1.00 33.88 2887 N MET B 360 33.706 82.100 75.643 1.00 41.47 2888 CA MET B 360 34.449 81.111 74.707 1.00 36.12 2889 CB MET B 360 33.314 80.532 73.676 1.00 35.78 2890 CG MET B 360 32.295 79.532 74.412 1.00 36.49 2891 SD MET B 360 33.230 78.304 75.227 1.00 33.45 2892 CE MET B 360 33.781 77.421 73.620 1.00 44.23 2893 C MET B 360 35.405 81.879 74.052 1.00 38.81 2894 O MET B 360 36.534 81.346 73.856 1.00 38.37 2895 N ARG B 361 35.055 83.136 73.576 1.00 37.37 2896 CA ARG B 361 36.248 83.826 72.876 1.00 44.82 2897 CB ARG B 361 35.780 85.316 72.522 1.00 44.87 2898 CG ARG B 361 36.987 86.109 71.904 1.00 44.84 2899 CD ARG B 361 36.466 87.439 71.655 1.00 51.90 2900 NE ARG B 361 37.276 88.236 71.019 1.00 60.42 2901 CZ ARG B 361 38.134 89.185 71.515 1.00 68.73 2902 NH1 ARG B 361 38.077 89.389 72.838 1.00 60.60 2903 NH2 ARG B 361 38.846 90.055 70.621 1.00 78.26 2904 C ARG B 361 37.480 83.977 73.692 1.00 46.62 2905 O ARG B 361 38.727 83.585 73.269 1.00 49.98 2906 N ARG B 362 37.353 84.518 74.826 1.00 41.39 2907 CA ARG B 362 38.668 84.561 75.685 1.00 42.68 2908 CB ARG B 362 38.178 85.012 77.142 1.00 42.44 2909 CG ARG B 362 37.619 86.567 77.136 1.00 42.82 2910 CD ARG B 362 37.308 86.945 78.575 1.00 38.22 2911 NE ARG B 362 35.868 87.079 78.788 1.00 41.73 2912 CZ ARG B 362 35.255 86.428 79.619 1.00 38.95 2913 NH1 ARG B 362 35.845 85.463 80.223 1.00 45.47 2914 NH2 ARG B 362 33.998 86.508 79.660 1.00 36.14 2915 C ARG B 362 39.358 83.319 75.688 1.00 40.83 2916 O ARG B 362 40.460 83.238 76.042 1.00 48.50 2917 N LEU B 363 38.700 82.197 75.579 1.00 38.38 2918 CA LEU B 363 39.437 80.922 75.664 1.00 39.93 2919 CB LEU B 363 38.359 79.771 75.741 1.00 40.71 2920 CG LEU B 363 37.949 79.299 77.014 1.00 38.90 2921 CD1 LEU B 363 36.937 78.240 76.961 1.00 33.87 2922 CD2 LEU B 363 39.129 78.816 77.709 1.00 42.27 2923 C LEU B 363 40.232 80.692 74.366 1.00 37.22 2924 O LEU B 363 41.222 79.915 74.404 1.00 34.01 2925 N GLY B 364 39.909 81.449 73.270 1.00 39.17 2926 CA GLY B 364 40.736 81.431 71.959 1.00 37.89 2927 C GLY B 364 40.810 79.959 71.399 1.00 44.21 2928 O GLY B 364 41.880 79.338 71.288 1.00 40.61 2929 N LEU B 365 39.637 79.369 71.190 1.00 43.34 2930 CA LEU B 365 39.694 77.882 70.801 1.00 49.01 2931 CB LEU B 365 38.272 77.164 71.229 1.00 42.87 2932 CG LEU B 365 38.161 77.232 72.788 1.00 49.95 2933 CD1 LEU B 365 36.743 76.607 72.908 1.00 58.47 2934 CD2 LEU B 365 39.116 76.275 73.403 1.00 50.07 2935 C LEU B 365 39.830 77.676 69.298 1.00 45.16 2936 O LEU B 365 39.156 78.429 68.524 1.00 45.24 2937 N ASP B 366 40.565 76.692 69.046 1.00 48.71 2938 CA ASP B 366 40.787 76.030 67.592 1.00 54.79 2939 CB ASP B 366 41.586 74.767 67.763 1.00 51.18 2940 CG ASP B 366 42.955 75.100 67.351 1.00 58.96 2941 OD1 ASP B 366 42.825 75.849 66.448 1.00 65.21 2942 OD2 ASP B 366 44.005 74.650 67.781 1.00 53.99 2943 C ASP B 366 39.659 75.446 67.061 1.00 59.19 2944 O ASP B 366 38.335 75.346 67.602 1.00 52.59 2945 N ASP B 367 40.020 74.916 65.925 1.00 60.01 2946 CA ASP B 367 38.976 74.117 65.057 1.00 53.72 2947 CB ASP B 367 39.632 74.063 63.588 1.00 56.58 2948 CG ASP B 367 39.019 75.126 62.645 1.00 69.39 2949 OD1 ASP B 367 38.272 76.070 63.065 1.00 68.05 2950 OD2 ASP B 367 39.339 75.032 61.444 1.00 78.09 2951 C ASP B 367 38.927 72.789 65.678 1.00 43.49 2952 O ASP B 367 37.896 72.221 65.734 1.00 49.56 2953 N ALA B 368 40.048 72.270 65.943 1.00 45.38 2954 CA ALA B 368 40.214 71.063 66.449 1.00 50.48 2955 CB ALA B 368 41.596 70.645 66.677 1.00 48.33 2956 C ALA B 368 39.304 70.977 67.802 1.00 52.64 2957 O ALA B 368 38.279 70.286 67.850 1.00 48.37 2958 N GLU B 369 39.807 71.840 68.718 1.00 45.67 2959 CA GLU B 369 39.101 72.143 70.017 1.00 47.42 2960 CB GLU B 369 39.774 73.382 70.752 1.00 39.41 2961 CG GLU B 369 41.226 73.138 70.884 1.00 47.88 2962 CD GLU B 369 42.177 74.344 71.359 1.00 50.37 2963 OE1 GLU B 369 41.953 75.426 70.859 1.00 49.12 2964 OE2 GLU B 369 43.018 74.078 72.219 1.00 42.55 2965 C GLU B 369 37.668 72.248 69.966 1.00 43.17 2966 O GLU B 369 36.937 71.556 70.687 1.00 49.38 2967 N TYR B 370 37.148 73.057 69.116 1.00 45.99 2968 CA TYR B 370 35.813 73.305 69.076 1.00 47.58 2969 CB TYR B 370 35.422 74.286 68.072 1.00 47.27 2970 CG TYR B 370 35.052 75.556 68.597 1.00 52.74 2971 CD1 TYR B 370 36.064 76.635 68.641 1.00 50.10 2972 CE1 TYR B 370 35.624 77.936 69.314 1.00 40.35 2973 CZ TYR B 370 34.554 78.036 69.840 1.00 40.16 2974 OH TYR B 370 33.991 79.170 70.276 1.00 44.26 2975 CE2 TYR B 370 33.424 76.804 69.704 1.00 47.37 2976 CD2 TYR B 370 33.712 75.833 69.190 1.00 42.67 2977 C TYR B 370 35.030 71.874 68.684 1.00 52.99 2978 O TYR B 370 33.758 71.658 69.130 1.00 49.77 2979 N ALA B 371 35.630 71.157 67.806 1.00 47.82 2980 CA ALA B 371 34.831 69.961 67.295 1.00 51.98 2981 CB ALA B 371 35.207 69.678 65.859 1.00 45.87 2982 C ALA B 371 35.094 68.670 68.370 1.00 46.13 2983 O ALA B 371 34.180 68.036 68.544 1.00 48.06 2984 N LEU B 372 36.211 68.555 68.932 1.00 37.70 2985 CA LEU B 372 36.500 67.670 69.899 1.00 40.88 2986 CB LEU B 372 37.925 67.769 70.424 1.00 37.06 2987 CG LEU B 372 38.958 66.880 69.768 1.00 44.88 2988 CD1 LEU B 372 40.510 67.353 70.167 1.00 41.45 2989 CD2 LEU B 372 38.785 65.261 70.084 1.00 38.26 2990 C LEU B 372 35.631 67.922 71.168 1.00 43.20 2991 O LEU B 372 35.194 66.999 71.837 1.00 41.82 2992 N LEU B 373 35.309 69.225 71.411 1.00 42.24 2993 CA LEU B 373 34.547 69.636 72.392 1.00 41.28 2994 CB LEU B 373 34.686 71.195 72.706 1.00 39.69 2995 CG LEU B 373 33.958 71.661 74.107 1.00 41.53 2996 CD1 LEU B 373 34.524 71.057 75.268 1.00 32.76 2997 CD2 LEU B 373 34.319 73.192 74.271 1.00 42.23 2998 C LEU B 373 33.189 69.144 72.164 1.00 40.89 2999 O LEU B 373 32.526 68.647 73.086 1.00 36.48 3000 N ILE B 374 32.726 69.362 70.974 1.00 38.82 3001 CA ILE B 374 31.222 68.979 70.736 1.00 40.41 3002 CB ILE B 374 30.792 69.588 69.360 1.00 49.48 3003 CG1 ILE B 374 30.806 71.010 69.376 1.00 40.21 3004 CD1 ILE B 374 30.576 71.719 67.853 1.00 39.35 3005 CG2 ILE B 374 29.433 69.176 68.783 1.00 50.16 3006 C ILE B 374 31.071 67.463 70.633 1.00 35.65 3007 O ILE B 374 30.044 67.013 70.952 1.00 37.33 3008 N ALA B 375 32.139 66.780 70.275 1.00 34.81 3009 CA ALA B 375 32.109 65.258 70.332 1.00 38.01 3010 CB ALA B 375 33.550 64.740 69.719 1.00 31.42 3011 C ALA B 375 31.850 64.791 71.650 1.00 38.73 3012 O ALA B 375 31.171 63.865 71.926 1.00 35.75 3013 N ILE B 376 32.786 65.389 72.622 1.00 41.09 3014 CA ILE B 376 32.744 65.055 74.022 1.00 35.50 3015 CB ILE B 376 33.708 65.860 74.712 1.00 33.93 3016 CG1 ILE B 376 35.058 65.278 74.378 1.00 37.82 3017 CD1 ILE B 376 36.260 66.085 74.970 1.00 42.61 3018 CG2 ILE B 376 33.578 65.909 76.213 1.00 35.07 3019 C ILE B 376 31.215 65.433 74.518 1.00 39.39 3020 O ILE B 376 30.600 64.662 75.226 1.00 31.63 3021 N ASN B 377 30.726 66.553 73.996 1.00 33.27 3022 CA ASN B 377 29.481 66.963 74.402 1.00 40.51 3023 CB ASN B 377 29.092 68.399 73.899 1.00 35.15 3024 CG ASN B 377 27.785 68.831 74.341 1.00 45.99 3025 OD1 ASN B 377 26.756 68.380 73.788 1.00 57.62 3026 ND2 ASN B 377 27.628 69.868 75.129 1.00 42.62 3027 C ASN B 377 28.318 65.895 73.951 1.00 39.66 3028 O ASN B 377 27.426 65.579 74.639 1.00 33.22 3029 N ILE B 378 28.475 65.476 72.689 1.00 41.09 3030 CA ILE B 378 27.466 64.500 72.126 1.00 36.18 3031 CB ILE B 378 27.826 64.197 70.678 1.00 38.50 3032 CG1 ILE B 378 27.152 65.256 69.760 1.00 35.97 3033 CD1 ILE B 378 27.776 65.473 68.277 1.00 36.60 3034 CG2 ILE B 378 27.258 62.699 70.244 1.00 33.25 3035 C ILE B 378 27.497 63.126 72.910 1.00 35.29 3036 O ILE B 378 26.423 62.693 73.370 1.00 36.52 3037 N PHE B 379 28.601 62.634 73.243 1.00 32.11 3038 CA PHE B 379 28.708 61.503 74.070 1.00 33.81 3039 CB PHE B 379 30.021 60.741 73.831 1.00 32.68 3040 CG PHE B 379 30.122 60.167 72.287 1.00 41.51 3041 CD1 PHE B 379 29.187 59.435 71.829 1.00 38.71 3042 CE1 PHE B 379 29.260 58.986 70.315 1.00 47.93 3043 CZ PHE B 379 30.147 59.236 69.593 1.00 42.87 3044 CE2 PHE B 379 31.361 60.099 70.327 1.00 52.03 3045 CD2 PHE B 379 31.139 60.524 71.507 1.00 40.23 3046 C PHE B 379 28.527 61.768 75.664 1.00 33.12 3047 O PHE B 379 29.455 61.342 76.400 1.00 32.97 3048 N SER B 380 27.448 62.253 76.030 1.00 31.16 3049 CA SER B 380 27.217 62.413 77.482 1.00 33.87 3050 CB SER B 380 26.593 63.847 77.671 1.00 35.32 3051 OG SER B 380 27.482 64.813 77.204 1.00 34.63 3052 C SER B 380 26.323 61.457 77.971 1.00 32.69 3053 O SER B 380 25.033 61.484 77.647 1.00 34.27 3054 N ALA B 381 26.835 60.585 78.833 1.00 31.35 3055 CA ALA B 381 26.112 59.445 79.336 1.00 36.71 3056 CB ALA B 381 26.981 58.621 79.982 1.00 34.88 3057 C ALA B 381 24.849 59.698 80.277 1.00 43.47 3058 O ALA B 381 23.935 58.858 80.375 1.00 39.75 3059 N ASP B 382 24.757 60.907 80.854 1.00 38.77 3060 CA ASP B 382 23.684 61.255 81.725 1.00 37.98 3061 CB ASP B 382 24.245 62.183 82.830 1.00 39.59 3062 CG ASP B 382 24.706 63.467 82.317 1.00 42.80 3063 OD1 ASP B 382 24.785 64.393 83.147 1.00 47.40 3064 OD2 ASP B 382 24.987 63.626 81.114 1.00 42.49 3065 C ASP B 382 22.458 61.983 80.969 1.00 38.07 3066 O ASP B 382 21.629 62.425 81.551 1.00 36.85 3067 N ARG B 383 22.506 61.946 79.627 1.00 33.91 3068 CA ARG B 383 21.389 62.586 79.022 1.00 43.30 3069 CB ARG B 383 21.483 62.676 77.426 1.00 38.18 3070 CG ARG B 383 22.666 63.403 76.929 1.00 38.53 3071 CD ARG B 383 22.759 64.827 77.504 1.00 35.18 3072 NE ARG B 383 23.761 65.525 76.860 1.00 37.54 3073 CZ ARG B 383 23.986 66.862 76.877 1.00 40.86 3074 NH1 ARG B 383 23.246 67.593 77.627 1.00 31.00 3075 NH2 ARG B 383 25.014 67.372 76.123 1.00 33.65 3076 C ARG B 383 20.092 61.718 79.407 1.00 41.21 3077 O ARG B 383 20.239 60.515 79.738 1.00 42.43 3078 N PRO B 384 18.965 62.322 79.384 1.00 40.98 3079 CA PRO B 384 17.715 61.469 79.656 1.00 42.66 3080 CB PRO B 384 16.564 62.496 79.569 1.00 44.34 3081 CG PRO B 384 17.305 63.907 79.871 1.00 38.75 3082 CD PRO B 384 18.605 63.775 79.084 1.00 37.14 3083 C PRO B 384 17.496 60.418 78.613 1.00 40.57 3084 O PRO B 384 17.827 60.633 77.482 1.00 40.45 3085 N ASN B 385 16.974 59.352 79.082 1.00 43.30 3086 CA ASN B 385 16.593 58.197 78.182 1.00 48.11 3087 CB ASN B 385 15.585 58.541 77.140 1.00 45.42 3088 CG ASN B 385 14.505 59.439 77.724 1.00 52.65 3089 OD1 ASN B 385 13.873 59.126 78.665 1.00 55.72 3090 ND2 ASN B 385 14.327 60.658 77.178 1.00 54.76 3091 C ASN B 385 17.816 57.479 77.451 1.00 48.64 3092 O ASN B 385 17.523 56.696 76.493 1.00 43.31 3093 N VAL B 386 19.021 57.602 77.984 1.00 41.33 3094 CA VAL B 386 20.060 56.863 77.388 1.00 42.45 3095 CB VAL B 386 21.433 57.459 77.739 1.00 41.84 3096 CG1 VAL B 386 22.550 56.396 77.457 1.00 36.52 3097 CG2 VAL B 386 21.585 58.739 76.787 1.00 48.51 3098 C VAL B 386 19.869 55.483 77.822 1.00 47.92 3099 O VAL B 386 19.865 55.185 78.942 1.00 52.17 3100 N GLN B 387 19.968 54.486 76.939 1.00 51.58 3101 CA GLN B 387 19.793 53.147 77.402 1.00 48.85 3102 CB GLN B 387 18.917 52.374 76.350 1.00 53.71 3103 CG GLN B 387 17.442 52.809 76.192 1.00 53.80 3104 CD GLN B 387 16.614 51.865 75.515 1.00 63.34 3105 OE1 GLN B 387 16.321 50.688 76.001 1.00 66.39 3106 NE2 GLN B 387 16.200 52.255 74.301 1.00 72.65 3107 C GLN B 387 20.918 52.350 77.686 1.00 51.24 3108 O GLN B 387 20.837 51.407 78.567 1.00 51.47 3109 N GLU B 388 22.116 52.752 77.087 1.00 49.23 3110 CA GLU B 388 23.346 52.227 77.309 1.00 44.52 3111 CB GLU B 388 23.934 51.490 76.035 1.00 48.85 3112 CG GLU B 388 22.981 50.173 75.625 1.00 58.45 3113 CD GLU B 388 23.286 49.659 74.132 1.00 60.60 3114 OE1 GLU B 388 22.905 48.548 73.897 1.00 77.84 3115 OE2 GLU B 388 23.680 50.333 73.228 1.00 61.44 3116 C GLU B 388 24.358 53.159 77.798 1.00 44.83 3117 O GLU B 388 25.470 53.409 77.170 1.00 48.61 3118 N PRO B 389 24.190 53.716 78.934 1.00 47.42 3119 CA PRO B 389 25.178 54.732 79.457 1.00 39.92 3120 CB PRO B 389 24.641 55.108 80.732 1.00 40.08 3121 CG PRO B 389 23.777 53.909 81.212 1.00 47.99 3122 CD PRO B 389 23.093 53.436 79.867 1.00 41.25 3123 C PRO B 389 26.597 54.326 79.438 1.00 42.93 3124 O PRO B 389 27.529 55.133 79.280 1.00 41.55 3125 N GLY B 390 26.883 53.146 79.869 1.00 49.43 3126 CA GLY B 390 28.215 52.662 80.145 1.00 43.80 3127 C GLY B 390 28.907 52.801 78.721 1.00 51.10 3128 O GLY B 390 30.087 53.361 78.713 1.00 50.45 3129 N ARG B 391 28.315 52.449 77.669 1.00 46.22 3130 CA ARG B 391 28.835 52.490 76.388 1.00 49.67 3131 CB ARG B 391 27.789 51.840 75.294 1.00 50.81 3132 CG ARG B 391 28.265 50.637 74.672 1.00 62.59 3133 CD ARG B 391 27.148 50.063 73.688 1.00 57.61 3134 NE ARG B 391 27.542 50.198 72.346 1.00 60.34 3135 CZ ARG B 391 26.712 49.956 71.336 1.00 65.60 3136 NH1 ARG B 391 25.489 49.448 71.571 1.00 63.01 3137 NH2 ARG B 391 27.137 50.044 70.028 1.00 59.69 3138 C ARG B 391 29.054 53.880 75.931 1.00 48.48 3139 O ARG B 391 30.203 54.230 75.317 1.00 49.56 3140 N VAL B 392 28.120 54.741 76.158 1.00 48.12 3141 CA VAL B 392 28.343 56.259 75.744 1.00 47.83 3142 CB VAL B 392 27.182 56.986 76.124 1.00 48.35 3143 CG1 VAL B 392 27.339 58.600 75.950 1.00 45.88 3144 CG2 VAL B 392 25.878 56.348 75.321 1.00 42.60 3145 C VAL B 392 29.594 56.730 76.511 1.00 43.63 3146 O VAL B 392 30.478 57.348 75.804 1.00 45.69 3147 N GLU B 393 29.745 56.411 77.768 1.00 37.90 3148 CA GLU B 393 30.705 56.936 78.557 1.00 42.47 3149 CB GLU B 393 30.552 56.493 80.014 1.00 46.80 3150 CG GLU B 393 31.086 57.536 81.110 1.00 52.70 3151 CD GLU B 393 30.912 56.905 82.636 1.00 62.94 3152 OE1 GLU B 393 29.985 55.972 82.850 1.00 58.05 3153 OE2 GLU B 393 31.558 57.350 83.570 1.00 57.70 3154 C GLU B 393 32.070 56.368 78.029 1.00 49.81 3155 O GLU B 393 33.100 56.998 78.094 1.00 46.21 3156 N ALA B 394 32.036 55.065 77.599 1.00 46.59 3157 CA ALA B 394 33.089 54.500 77.027 1.00 51.72 3158 CB ALA B 394 32.849 52.975 76.829 1.00 47.93 3159 C ALA B 394 33.426 55.225 75.548 1.00 49.33 3160 O ALA B 394 34.571 55.308 75.172 1.00 53.93 3161 N LEU B 395 32.512 55.542 74.841 1.00 47.24 3162 CA LEU B 395 32.713 56.174 73.588 1.00 47.77 3163 CB LEU B 395 31.375 56.420 73.002 1.00 47.27 3164 CG LEU B 395 30.650 55.089 72.518 1.00 52.97 3165 CD1 LEU B 395 29.486 55.532 71.568 1.00 56.50 3166 CD2 LEU B 395 31.633 54.369 71.629 1.00 65.08 3167 C LEU B 395 33.351 57.635 73.853 1.00 50.33 3168 O LEU B 395 34.224 57.986 73.190 1.00 43.23 3169 N GLN B 396 32.857 58.316 74.935 1.00 45.97 3170 CA GLN B 396 33.453 59.568 75.249 1.00 45.92 3171 CB GLN B 396 32.549 60.360 76.332 1.00 48.46 3172 CG GLN B 396 33.013 61.694 76.726 1.00 38.06 3173 CD GLN B 396 32.178 62.350 77.874 1.00 43.58 3174 OE1 GLN B 396 31.218 63.093 77.571 1.00 37.96 3175 NE2 GLN B 396 32.370 61.932 79.033 1.00 33.42 3176 C GLN B 396 34.794 59.728 75.616 1.00 39.07 3177 O GLN B 396 35.399 60.637 75.344 1.00 46.93 3178 N GLN B 397 35.306 58.840 76.278 1.00 43.51 3179 CA GLN B 397 36.502 58.774 76.766 1.00 45.19 3180 CB GLN B 397 36.753 57.518 77.438 1.00 50.22 3181 CG GLN B 397 38.002 57.491 78.398 1.00 53.48 3182 CD GLN B 397 38.113 56.049 79.202 1.00 74.85 3183 OE1 GLN B 397 37.123 55.689 79.894 1.00 73.18 3184 NE2 GLN B 397 39.234 55.224 78.998 1.00 69.16 3185 C GLN B 397 37.687 59.178 75.868 1.00 52.84 3186 O GLN B 397 38.635 60.070 76.246 1.00 49.93 3187 N PRO B 398 37.842 58.514 74.840 1.00 53.73 3188 CA PRO B 398 38.993 58.790 74.001 1.00 55.88 3189 CB PRO B 398 38.763 57.666 72.715 1.00 62.63 3190 CG PRO B 398 37.129 57.322 72.859 1.00 53.57 3191 CD PRO B 398 37.052 57.343 74.422 1.00 58.05 3192 C PRO B 398 38.851 60.214 73.388 1.00 52.09 3193 O PRO B 398 39.793 60.773 72.860 1.00 52.37 3194 N TYR B 399 37.751 60.840 73.430 1.00 52.85 3195 CA TYR B 399 37.678 62.200 72.875 1.00 50.56 3196 CB TYR B 399 36.329 62.567 72.524 1.00 47.48 3197 CG TYR B 399 35.877 61.893 71.280 1.00 58.67 3198 CD1 TYR B 399 36.390 62.258 69.997 1.00 58.36 3199 CE1 TYR B 399 36.185 61.595 68.906 1.00 57.41 3200 CZ TYR B 399 35.378 60.455 68.910 1.00 65.70 3201 OH TYR B 399 35.023 59.768 67.846 1.00 56.50 3202 CE2 TYR B 399 34.729 60.113 70.174 1.00 69.32 3203 CD2 TYR B 399 35.052 60.821 71.309 1.00 64.30 3204 C TYR B 399 38.168 63.070 74.069 1.00 54.09 3205 O TYR B 399 38.825 64.123 73.739 1.00 57.36 3206 N VAL B 400 37.965 62.696 75.271 1.00 45.95 3207 CA VAL B 400 38.468 63.498 76.324 1.00 45.82 3208 CB VAL B 400 37.815 63.108 77.785 1.00 38.52 3209 CG1 VAL B 400 38.430 63.876 78.843 1.00 38.05 3210 CG2 VAL B 400 36.331 63.403 77.774 1.00 42.03 3211 C VAL B 400 39.920 63.465 76.392 1.00 43.40 3212 O VAL B 400 40.539 64.426 76.892 1.00 41.68 3213 N GLU B 401 40.454 62.287 76.118 1.00 42.91 3214 CA GLU B 401 41.801 62.093 76.259 1.00 46.81 3215 CB GLU B 401 42.164 60.569 76.197 1.00 50.70 3216 CG GLU B 401 43.592 60.205 76.576 1.00 57.12 3217 CD GLU B 401 43.723 58.785 77.282 1.00 69.56 3218 OE1 GLU B 401 43.083 57.753 76.734 1.00 72.77 3219 OE2 GLU B 401 44.364 58.632 78.277 1.00 71.00 3220 C GLU B 401 42.614 62.830 75.112 1.00 43.66 3221 O GLU B 401 43.608 63.397 75.287 1.00 41.67 3222 N ALA B 402 41.947 62.883 74.025 1.00 48.95 3223 CA ALA B 402 42.520 63.600 72.910 1.00 51.49 3224 CB ALA B 402 41.662 63.395 71.667 1.00 45.05 3225 C ALA B 402 42.622 64.979 73.224 1.00 46.67 3226 O ALA B 402 43.676 65.642 72.938 1.00 47.78 3227 N LEU B 403 41.518 65.517 73.675 1.00 44.41 3228 CA LEU B 403 41.438 66.964 74.065 1.00 42.46 3229 CB LEU B 403 40.015 67.443 74.295 1.00 33.75 3230 CG LEU B 403 39.846 68.871 74.540 1.00 42.51 3231 CD1 LEU B 403 40.537 69.597 73.404 1.00 37.35 3232 CD2 LEU B 403 38.403 69.363 74.740 1.00 28.87 3233 C LEU B 403 42.509 67.341 75.098 1.00 43.11 3234 O LEU B 403 43.206 68.350 74.938 1.00 46.62 3235 N LEU B 404 42.741 66.497 76.077 1.00 43.05 3236 CA LEU B 404 43.682 66.687 77.057 1.00 43.92 3237 CB LEU B 404 43.621 65.709 78.122 1.00 42.57 3238 CG LEU B 404 44.754 65.651 79.179 1.00 49.81 3239 CD1 LEU B 404 44.964 67.122 79.790 1.00 49.83 3240 CD2 LEU B 404 44.445 64.698 80.172 1.00 53.06 3241 C LEU B 404 45.172 66.804 76.401 1.00 51.79 3242 O LEU B 404 46.052 67.766 76.669 1.00 48.42 3243 N SER B 405 45.506 65.747 75.777 1.00 50.35 3244 CA SER B 405 46.902 65.745 75.119 1.00 56.85 3245 CB SER B 405 47.000 64.285 74.387 1.00 48.60 3246 OG SER B 405 46.226 64.556 73.285 1.00 58.57 3247 C SER B 405 47.022 66.867 74.169 1.00 50.98 3248 O SER B 405 47.920 67.578 74.326 1.00 55.26 3249 N TYR B 406 46.086 67.082 73.349 1.00 48.23 3250 CA TYR B 406 46.173 68.198 72.461 1.00 51.31 3251 CB TYR B 406 44.919 68.339 71.790 1.00 47.60 3252 CG TYR B 406 44.890 69.267 70.640 1.00 59.55 3253 CD1 TYR B 406 45.552 68.953 69.407 1.00 55.72 3254 CE1 TYR B 406 45.630 69.909 68.299 1.00 55.02 3255 CZ TYR B 406 44.898 71.017 68.355 1.00 63.04 3256 OH TYR B 406 44.731 71.941 67.433 1.00 63.15 3257 CE2 TYR B 406 44.115 71.303 69.606 1.00 62.97 3258 CD2 TYR B 406 44.098 70.473 70.601 1.00 58.74 3259 C TYR B 406 46.444 69.486 73.174 1.00 58.44 3260 O TYR B 406 47.480 70.166 72.935 1.00 62.89 3261 N THR B 407 45.620 69.978 74.099 1.00 58.58 3262 CA THR B 407 45.817 71.225 74.797 1.00 48.27 3263 CB THR B 407 44.573 71.502 75.818 1.00 43.99 3264 OG1 THR B 407 44.442 70.504 76.852 1.00 44.98 3265 CG2 THR B 407 43.383 71.691 75.113 1.00 42.33 3266 C THR B 407 47.056 71.188 75.527 1.00 46.17 3267 O THR B 407 47.666 72.267 75.718 1.00 58.76 3268 N ARG B 408 47.555 70.144 75.977 1.00 50.52 3269 CA ARG B 408 48.814 70.143 76.616 1.00 57.73 3270 CB ARG B 408 49.161 68.795 77.190 1.00 60.99 3271 CG ARG B 408 49.267 68.643 78.710 1.00 65.94 3272 CD ARG B 408 50.252 69.792 79.272 1.00 91.42 3273 NE ARG B 408 51.660 69.419 79.440 1.00 88.13 3274 CZ ARG B 408 52.676 70.329 79.553 1.00 97.15 3275 NH1 ARG B 408 52.483 71.701 79.541 1.00 91.28 3276 NH2 ARG B 408 53.930 69.930 79.739 1.00 91.45 3277 C ARG B 408 49.940 70.584 75.468 1.00 63.60 3278 O ARG B 408 50.910 71.225 75.761 1.00 66.13 3279 N ILE B 409 49.651 70.297 74.231 1.00 59.66 3280 CA ILE B 409 50.375 70.830 73.100 1.00 62.29 3281 CB ILE B 409 50.109 69.867 71.770 1.00 57.98 3282 CG1 ILE B 409 50.780 68.550 72.071 1.00 52.77 3283 CD1 ILE B 409 50.198 67.240 70.873 1.00 57.84 3284 CG2 ILE B 409 50.806 70.472 70.532 1.00 59.90 3285 C ILE B 409 50.166 72.217 72.767 1.00 58.83 3286 O ILE B 409 51.090 72.968 72.861 1.00 63.13 3287 N LYS B 410 48.995 72.605 72.380 1.00 56.21 3288 CA LYS B 410 48.801 74.031 72.085 1.00 57.56 3289 CB LYS B 410 47.315 74.340 71.778 1.00 61.31 3290 CG LYS B 410 46.801 75.771 71.712 1.00 57.24 3291 CD LYS B 410 45.494 75.911 71.004 1.00 54.26 3292 CE LYS B 410 45.245 77.070 70.613 1.00 49.91 3293 NZ LYS B 410 44.007 77.304 69.876 1.00 63.13 3294 C LYS B 410 49.321 75.022 73.028 1.00 62.14 3295 O LYS B 410 50.108 75.881 72.807 1.00 65.63 3296 N ARG B 411 48.891 74.979 74.236 1.00 68.06 3297 CA ARG B 411 49.301 75.944 75.310 1.00 59.35 3298 CB ARG B 411 48.220 76.860 75.573 1.00 55.30 3299 CG ARG B 411 48.481 78.414 74.976 1.00 64.39 3300 CD ARG B 411 47.344 78.915 74.172 1.00 56.25 3301 NE ARG B 411 47.810 79.128 72.848 1.00 72.33 3302 CZ ARG B 411 46.991 79.535 71.859 1.00 80.77 3303 NH1 ARG B 411 45.616 79.983 72.098 1.00 76.20 3304 NH2 ARG B 411 47.548 79.604 70.599 1.00 82.01 3305 C ARG B 411 49.766 75.174 76.459 1.00 61.22 3306 O ARG B 411 49.183 74.996 77.456 1.00 65.25 3307 N PRO B 412 50.972 74.672 76.397 1.00 65.47 3308 CA PRO B 412 51.624 73.929 77.427 1.00 56.72 3309 CB PRO B 412 53.026 73.570 76.677 1.00 59.83 3310 CG PRO B 412 53.182 74.705 75.669 1.00 49.87 3311 CD PRO B 412 51.812 74.717 75.070 1.00 62.38 3312 C PRO B 412 51.804 74.467 78.748 1.00 62.03 3313 O PRO B 412 52.101 73.670 79.764 1.00 62.16 3314 N GLN B 413 52.033 75.746 78.871 1.00 62.83 3315 CA GLN B 413 52.334 76.137 80.246 1.00 63.94 3316 CB GLN B 413 53.399 77.310 80.331 1.00 64.15 3317 CG GLN B 413 54.633 76.893 81.238 1.00 63.58 3318 CD GLN B 413 55.637 75.992 80.326 1.00 76.45 3319 OE1 GLN B 413 56.098 74.947 80.815 1.00 71.82 3320 NE2 GLN B 413 55.851 76.315 79.015 1.00 75.29 3321 C GLN B 413 50.988 76.542 80.967 1.00 65.02 3322 O GLN B 413 50.959 77.209 82.072 1.00 67.96 3323 N ASP B 414 49.921 76.361 80.290 1.00 61.61 3324 CA ASP B 414 48.591 76.678 80.888 1.00 55.66 3325 CB ASP B 414 47.875 77.673 80.044 1.00 52.94 3326 CG ASP B 414 46.618 78.283 80.746 1.00 58.90 3327 OD1 ASP B 414 45.845 79.161 80.143 1.00 56.74 3328 OD2 ASP B 414 46.388 77.828 81.913 1.00 63.67 3329 C ASP B 414 47.819 75.431 81.040 1.00 47.48 3330 O ASP B 414 47.038 75.146 80.163 1.00 48.35 3331 N GLN B 415 48.057 74.745 82.083 1.00 47.21 3332 CA GLN B 415 47.333 73.518 82.410 1.00 48.12 3333 CB GLN B 415 47.994 72.750 83.478 1.00 45.31 3334 CG GLN B 415 49.319 72.153 82.945 1.00 67.82 3335 CD GLN B 415 50.253 71.461 84.067 1.00 89.11 3336 OE1 GLN B 415 51.322 70.767 83.723 1.00 85.93 3337 NE2 GLN B 415 49.893 71.715 85.443 1.00 83.43 3338 C GLN B 415 45.892 73.670 82.784 1.00 49.96 3339 O GLN B 415 45.079 72.671 82.694 1.00 43.98 3340 N LEU B 416 45.501 74.945 83.123 1.00 47.10 3341 CA LEU B 416 43.978 75.120 83.503 1.00 46.67 3342 CB LEU B 416 43.862 76.220 84.464 1.00 42.24 3343 CG LEU B 416 44.829 76.024 85.695 1.00 46.70 3344 CD1 LEU B 416 44.294 77.038 86.573 1.00 50.30 3345 CD2 LEU B 416 44.747 74.612 86.360 1.00 47.05 3346 C LEU B 416 43.141 75.423 82.359 1.00 47.55 3347 O LEU B 416 41.901 75.394 82.489 1.00 46.19 3348 N ARG B 417 43.750 75.643 81.152 1.00 43.61 3349 CA ARG B 417 42.849 75.985 79.953 1.00 45.54 3350 CB ARG B 417 43.772 76.394 78.800 1.00 47.18 3351 CG ARG B 417 43.003 76.958 77.607 1.00 52.36 3352 CD ARG B 417 44.016 77.709 76.629 1.00 43.04 3353 NE ARG B 417 43.332 77.806 75.322 1.00 48.08 3354 CZ ARG B 417 43.399 76.764 74.337 1.00 41.87 3355 NH1 ARG B 417 43.918 75.624 74.633 1.00 27.87 3356 NH2 ARG B 417 42.884 77.023 73.189 1.00 42.80 3357 C ARG B 417 41.925 74.750 79.581 1.00 44.39 3358 O ARG B 417 40.805 74.921 79.177 1.00 41.74 3359 N PHE B 418 42.410 73.546 79.764 1.00 41.38 3360 CA PHE B 418 41.673 72.442 79.433 1.00 44.48 3361 CB PHE B 418 42.645 71.168 79.588 1.00 38.64 3362 CG PHE B 418 41.886 69.814 79.523 1.00 40.60 3363 CD1 PHE B 418 41.185 69.445 78.460 1.00 46.74 3364 CE1 PHE B 418 40.649 68.249 78.287 1.00 37.85 3365 CZ PHE B 418 40.741 67.416 79.212 1.00 42.90 3366 CE2 PHE B 418 41.415 67.737 80.358 1.00 50.83 3367 CD2 PHE B 418 41.986 68.922 80.503 1.00 45.06 3368 C PHE B 418 40.423 72.254 80.431 1.00 38.51 3369 O PHE B 418 39.257 72.212 80.003 1.00 38.19 3370 N PRO B 419 40.670 72.255 81.676 1.00 39.54 3371 CA PRO B 419 39.392 72.192 82.585 1.00 34.08 3372 CB PRO B 419 40.078 72.081 84.039 1.00 32.89 3373 CG PRO B 419 41.394 72.736 83.884 1.00 33.97 3374 CD PRO B 419 41.834 72.229 82.436 1.00 36.76 3375 C PRO B 419 38.514 73.382 82.451 1.00 33.49 3376 O PRO B 419 37.294 73.252 82.531 1.00 30.11 3377 N ARG B 420 39.024 74.565 82.149 1.00 34.06 3378 CA ARG B 420 38.014 75.588 81.942 1.00 40.49 3379 CB ARG B 420 38.491 77.117 81.933 1.00 32.76 3380 CG ARG B 420 39.683 77.385 81.659 1.00 56.46 3381 CD ARG B 420 40.184 78.915 82.102 1.00 62.86 3382 NE ARG B 420 41.274 79.587 81.235 1.00 64.61 3383 CZ ARG B 420 42.623 79.785 81.598 1.00 72.93 3384 NH1 ARG B 420 43.135 79.398 82.846 1.00 69.01 3385 NH2 ARG B 420 43.371 80.432 80.745 1.00 67.63 3386 C ARG B 420 37.183 75.268 80.668 1.00 39.24 3387 O ARG B 420 35.978 75.681 80.562 1.00 36.26 3388 N MET B 421 37.861 74.665 79.714 1.00 38.39 3389 CA MET B 421 37.144 74.346 78.420 1.00 37.04 3390 CB MET B 421 37.987 73.658 77.523 1.00 41.19 3391 CG MET B 421 37.969 73.936 76.045 1.00 45.40 3392 SD MET B 421 39.536 73.304 75.190 1.00 51.40 3393 CE MET B 421 40.851 74.414 75.729 1.00 49.13 3394 C MET B 421 35.978 73.351 78.829 1.00 37.69 3395 O MET B 421 34.903 73.407 78.309 1.00 32.26 3396 N LEU B 422 36.355 72.416 79.710 1.00 36.06 3397 CA LEU B 422 35.330 71.374 79.968 1.00 35.29 3398 CB LEU B 422 36.000 70.198 80.904 1.00 36.87 3399 CG LEU B 422 36.653 69.113 80.172 1.00 35.04 3400 CD1 LEU B 422 36.781 67.981 81.004 1.00 33.56 3401 CD2 LEU B 422 35.908 68.687 78.963 1.00 36.81 3402 C LEU B 422 34.253 71.997 80.830 1.00 33.87 3403 O LEU B 422 33.061 71.535 80.667 1.00 33.92 3404 N MET B 423 34.585 72.912 81.650 1.00 29.57 3405 CA MET B 423 33.600 73.624 82.403 1.00 32.22 3406 CB MET B 423 34.294 74.536 83.477 1.00 31.57 3407 CG MET B 423 34.735 73.357 84.683 1.00 35.36 3408 SD MET B 423 35.107 74.163 86.203 1.00 53.40 3409 CE MET B 423 36.696 74.684 85.904 1.00 64.75 3410 C MET B 423 32.629 74.440 81.627 1.00 35.18 3411 O MET B 423 31.546 74.797 82.080 1.00 33.67 3412 N LYS B 424 32.978 74.679 80.330 1.00 31.98 3413 CA LYS B 424 32.001 75.338 79.457 1.00 34.96 3414 CB LYS B 424 32.566 75.736 78.047 1.00 31.64 3415 CG LYS B 424 33.665 76.876 78.245 1.00 33.70 3416 CD LYS B 424 33.028 78.047 78.937 1.00 37.16 3417 CE LYS B 424 33.860 79.098 79.095 1.00 51.16 3418 NZ LYS B 424 33.356 80.056 80.511 1.00 56.80 3419 C LYS B 424 30.799 74.347 79.172 1.00 27.90 3420 O LYS B 424 29.708 74.759 78.800 1.00 32.10 3421 N LEU B 425 31.088 73.093 79.416 1.00 26.30 3422 CA LEU B 425 29.951 72.098 79.182 1.00 27.36 3423 CB LEU B 425 30.568 70.643 79.277 1.00 29.69 3424 CG LEU B 425 31.624 70.197 78.046 1.00 33.03 3425 CD1 LEU B 425 32.018 68.907 78.317 1.00 27.54 3426 CD2 LEU B 425 30.744 70.186 76.580 1.00 28.56 3427 C LEU B 425 29.064 72.274 80.333 1.00 30.48 3428 O LEU B 425 27.778 72.085 80.229 1.00 28.12 3429 N VAL B 426 29.611 72.729 81.514 1.00 25.81 3430 CA VAL B 426 28.680 73.006 82.672 1.00 27.78 3431 CB VAL B 426 29.545 73.358 84.058 1.00 22.37 3432 CG1 VAL B 426 28.573 73.585 85.124 1.00 22.01 3433 CG2 VAL B 426 30.318 72.211 84.478 1.00 22.98 3434 C VAL B 426 27.886 74.163 82.329 1.00 28.34 3435 O VAL B 426 26.653 74.131 82.586 1.00 28.22 3436 N SER B 427 28.478 75.219 81.832 1.00 25.84 3437 CA SER B 427 27.549 76.284 81.534 1.00 32.96 3438 CB SER B 427 28.249 77.696 81.257 1.00 27.16 3439 OG SER B 427 29.452 77.559 80.757 1.00 46.67 3440 C SER B 427 26.494 76.012 80.378 1.00 32.01 3441 O SER B 427 25.426 76.561 80.366 1.00 28.93 3442 N LEU B 428 26.952 75.178 79.412 1.00 32.02 3443 CA LEU B 428 25.988 74.865 78.278 1.00 32.40 3444 CB LEU B 428 26.717 73.884 77.281 1.00 27.32 3445 CG LEU B 428 27.761 74.628 76.300 1.00 39.39 3446 CD1 LEU B 428 28.596 73.661 75.609 1.00 36.25 3447 CD2 LEU B 428 26.946 75.485 75.166 1.00 33.44 3448 C LEU B 428 24.795 74.142 78.896 1.00 31.04 3449 O LEU B 428 23.657 74.287 78.397 1.00 35.47 3450 N ARG B 429 24.965 73.285 79.880 1.00 32.04 3451 CA ARG B 429 23.903 72.579 80.461 1.00 32.80 3452 CB ARG B 429 24.442 71.546 81.475 1.00 30.73 3453 CG ARG B 429 23.264 70.488 81.922 1.00 40.21 3454 CD ARG B 429 23.022 69.498 80.606 1.00 33.81 3455 NE ARG B 429 24.243 68.638 80.318 1.00 28.60 3456 CZ ARG B 429 24.368 67.415 80.882 1.00 32.87 3457 NH1 ARG B 429 23.505 67.018 81.810 1.00 30.23 3458 NH2 ARG B 429 25.267 66.574 80.457 1.00 32.14 3459 C ARG B 429 22.813 73.454 80.953 1.00 33.59 3460 O ARG B 429 21.657 73.192 80.936 1.00 37.09 3461 N THR B 430 23.201 74.544 81.614 1.00 38.72 3462 CA THR B 430 22.306 75.483 82.243 1.00 37.01 3463 CB THR B 430 23.120 76.468 83.049 1.00 34.12 3464 OG1 THR B 430 23.513 75.732 84.268 1.00 38.65 3465 CG2 THR B 430 22.217 77.724 83.460 1.00 32.93 3466 C THR B 430 21.592 76.362 80.972 1.00 39.46 3467 O THR B 430 20.447 76.527 81.004 1.00 35.20 3468 N LEU B 431 22.416 76.778 80.127 1.00 36.01 3469 CA LEU B 431 21.991 77.479 78.958 1.00 42.02 3470 CB LEU B 431 23.139 77.674 78.016 1.00 31.12 3471 CG LEU B 431 24.016 78.912 78.364 1.00 35.43 3472 CD1 LEU B 431 25.168 78.964 77.609 1.00 34.81 3473 CD2 LEU B 431 23.470 80.210 78.169 1.00 37.53 3474 C LEU B 431 20.850 76.641 78.326 1.00 43.70 3475 O LEU B 431 19.839 77.114 78.022 1.00 44.09 3476 N SER B 432 21.079 75.379 78.252 1.00 46.54 3477 CA SER B 432 20.086 74.518 77.706 1.00 49.15 3478 CB SER B 432 20.435 73.053 77.806 1.00 48.94 3479 OG SER B 432 19.413 72.247 77.466 1.00 45.95 3480 C SER B 432 18.809 74.754 78.317 1.00 49.69 3481 O SER B 432 17.776 74.784 77.516 1.00 54.26 3482 N SER B 433 18.724 74.768 79.580 1.00 47.14 3483 CA SER B 433 17.494 74.980 80.296 1.00 47.20 3484 CB SER B 433 17.739 74.865 81.794 1.00 40.62 3485 OG SER B 433 18.081 73.584 82.108 1.00 49.73 3486 C SER B 433 16.946 76.447 80.127 1.00 49.50 3487 O SER B 433 15.794 76.592 80.321 1.00 51.14 3488 N VAL B 434 17.789 77.435 79.846 1.00 49.22 3489 CA VAL B 434 17.229 78.708 79.746 1.00 54.55 3490 CB VAL B 434 18.304 79.836 79.960 1.00 54.92 3491 CG1 VAL B 434 18.835 79.844 81.638 1.00 50.26 3492 CG2 VAL B 434 19.391 79.488 79.048 1.00 57.15 3493 C VAL B 434 16.649 78.814 78.329 1.00 51.87 3494 O VAL B 434 15.982 79.691 78.010 1.00 51.61 3495 N HIS B 435 17.105 78.026 77.512 1.00 50.38 3496 CA HIS B 435 16.629 77.927 76.158 1.00 55.58 3497 CB HIS B 435 17.473 77.180 75.326 1.00 56.02 3498 CG HIS B 435 16.897 76.877 74.054 1.00 69.93 3499 ND1 HIS B 435 17.388 77.444 72.810 1.00 81.64 3500 CE1 HIS B 435 16.679 76.915 71.782 1.00 69.58 3501 NE2 HIS B 435 15.850 75.956 72.306 1.00 62.02 3502 CD2 HIS B 435 16.030 75.888 73.694 1.00 64.25 3503 C HIS B 435 15.424 77.348 76.187 1.00 59.49 3504 O HIS B 435 14.621 77.689 75.624 1.00 63.73 3505 N SER B 436 15.158 76.559 77.155 1.00 62.97 3506 CA SER B 436 13.838 75.852 77.250 1.00 61.17 3507 CB SER B 436 14.017 74.539 77.996 1.00 59.04 3508 OG SER B 436 12.958 74.100 78.611 1.00 57.03 3509 C SER B 436 12.781 76.645 77.922 1.00 64.10 3510 O SER B 436 11.687 76.568 77.568 1.00 69.87 3511 N GLU B 437 12.941 77.315 78.991 1.00 65.48 3512 CA GLU B 437 11.928 78.060 79.623 1.00 68.26 3513 CB GLU B 437 12.252 78.369 81.135 1.00 69.08 3514 CG GLU B 437 13.770 78.578 81.471 1.00 77.67 3515 CD GLU B 437 13.995 78.877 82.975 1.00 84.13 3516 OE1 GLU B 437 12.918 79.204 83.662 1.00 96.00 3517 OE2 GLU B 437 15.114 78.770 83.468 1.00 88.44 3518 C GLU B 437 11.735 79.431 78.733 1.00 69.36 3519 O GLU B 437 10.776 80.203 78.843 1.00 74.35 3520 N GLN B 438 12.603 79.707 77.908 1.00 63.83 3521 CA GLN B 438 12.404 80.735 77.024 1.00 61.73 3522 CB GLN B 438 13.664 81.035 76.242 1.00 54.68 3523 CG GLN B 438 13.751 81.379 74.980 1.00 53.55 3524 CD GLN B 438 13.375 83.010 74.543 1.00 64.01 3525 OE1 GLN B 438 12.462 83.552 75.147 1.00 55.61 3526 NE2 GLN B 438 14.163 83.611 73.698 1.00 54.83 3527 C GLN B 438 11.392 80.405 76.119 1.00 71.21 3528 O GLN B 438 10.254 81.176 75.834 1.00 77.04 3529 N VAL B 439 11.707 79.347 75.472 1.00 73.56 3530 CA VAL B 439 10.781 78.826 74.528 1.00 77.85 3531 CB VAL B 439 11.370 77.428 73.962 1.00 77.61 3532 CG1 VAL B 439 10.095 76.647 73.195 1.00 83.57 3533 CG2 VAL B 439 12.539 77.639 73.039 1.00 72.22 3534 C VAL B 439 9.319 78.686 75.069 1.00 76.34 3535 O VAL B 439 8.341 78.881 74.376 1.00 74.98 3536 N PHE B 440 9.206 78.273 76.317 1.00 79.29 3537 CA PHE B 440 7.996 78.110 76.985 1.00 80.16 3538 CB PHE B 440 8.225 77.599 78.238 1.00 78.89 3539 CG PHE B 440 7.054 77.724 79.098 1.00 92.23 3540 CD1 PHE B 440 5.772 77.208 78.742 1.00 99.43 3541 CE1 PHE B 440 4.596 77.379 79.606 1.00 98.72 3542 CZ PHE B 440 4.740 78.132 80.830 1.00 100.73 3543 CE2 PHE B 440 5.999 78.723 81.122 1.00 99.88 3544 CD2 PHE B 440 7.139 78.412 80.292 1.00 101.24 3545 C PHE B 440 7.379 79.541 77.198 1.00 85.20 3546 O PHE B 440 6.111 79.770 77.380 1.00 84.97 3547 N ALA B 441 8.196 80.588 77.096 1.00 86.29 3548 CA ALA B 441 7.624 81.976 77.265 1.00 80.96 3549 CB ALA B 441 8.536 82.970 77.776 1.00 74.47 3550 C ALA B 441 7.220 82.419 75.924 1.00 80.06 3551 O ALA B 441 6.132 83.160 75.872 1.00 81.05 3552 N LEU B 442 8.025 82.135 74.899 1.00 78.80 3553 CA LEU B 442 7.568 82.409 73.552 1.00 82.11 3554 CB LEU B 442 8.443 81.895 72.505 1.00 81.69 3555 CG LEU B 442 9.624 82.735 72.473 1.00 83.56 3556 CD1 LEU B 442 10.612 82.111 71.506 1.00 80.19 3557 CD2 LEU B 442 9.248 84.129 72.041 1.00 77.57 3558 C LEU B 442 6.020 81.763 73.158 1.00 85.14 3559 O LEU B 442 5.034 82.354 72.611 1.00 85.70 3560 N ARG B 443 5.815 80.602 73.482 1.00 85.53 3561 CA ARG B 443 4.545 80.084 73.343 1.00 87.83 3562 CB ARG B 443 4.619 78.683 73.798 1.00 91.21 3563 CG ARG B 443 3.342 77.748 73.912 1.00 98.16 3564 CD ARG B 443 3.700 76.185 73.899 1.00 92.87 3565 NE ARG B 443 4.850 75.964 72.925 1.00 93.04 3566 CZ ARG B 443 4.869 76.230 71.575 1.00 96.00 3567 NH1 ARG B 443 3.705 76.661 70.926 1.00 102.88 3568 NH2 ARG B 443 5.990 75.956 70.841 1.00 82.77 3569 C ARG B 443 3.639 80.845 74.249 1.00 90.37 3570 O ARG B 443 2.454 81.127 73.835 1.00 92.49 3571 N ALA B 444 4.064 81.126 75.507 1.00 93.02 3572 CA ALA B 444 3.244 81.840 76.538 1.00 96.93 3573 CB ALA B 444 3.975 82.137 77.768 1.00 95.28 3574 C ALA B 444 2.606 83.229 75.946 1.00 102.42 3575 O ALA B 444 1.426 83.696 76.300 1.00 101.79 3576 N GLN B 445 3.350 83.862 75.003 1.00 102.89 3577 CA GLN B 445 2.908 85.111 74.382 1.00 101.00 3578 CB GLN B 445 4.009 86.219 74.353 1.00 100.25 3579 CG GLN B 445 3.857 87.230 75.518 1.00 99.82 3580 CD GLN B 445 2.569 88.091 75.407 1.00 104.75 3581 OE1 GLN B 445 1.973 88.471 76.447 1.00 101.58 3582 NE2 GLN B 445 2.156 88.408 74.153 1.00 101.48 3583 C GLN B 445 2.285 84.948 73.003 1.00 101.79 3584 O GLN B 445 1.020 85.221 72.835 1.00 107.41 3585 N ASP B 446 3.080 84.594 72.015 1.00 98.12 3586 CA ASP B 446 2.583 84.498 70.639 1.00 97.10 3587 CB ASP B 446 3.552 85.344 69.702 1.00 95.60 3588 CG ASP B 446 3.395 86.855 69.975 1.00 106.20 3589 OD1 ASP B 446 2.221 87.369 70.349 1.00 105.08 3590 OD2 ASP B 446 4.448 87.602 69.878 1.00 103.97 3591 C ASP B 446 2.492 83.188 70.052 1.00 90.74 3592 O ASP B 446 1.567 82.679 69.995 1.00 91.91 3593 N LYS B 447 3.603 82.850 69.535 1.00 91.18 3594 CA LYS B 447 3.986 81.746 68.713 1.00 92.43 3595 CB LYS B 447 4.987 82.291 67.750 1.00 92.71 3596 CG LYS B 447 5.694 83.445 68.230 1.00 98.18 3597 CD LYS B 447 6.175 83.217 69.631 1.00 93.65 3598 CE LYS B 447 6.434 84.685 70.142 1.00 117.01 3599 NZ LYS B 447 5.874 85.264 71.584 1.00 106.41 3600 C LYS B 447 4.554 80.409 69.258 1.00 90.83 3601 O LYS B 447 5.379 80.381 70.262 1.00 90.09 3602 N LYS B 448 4.126 79.366 68.489 1.00 88.27 3603 CA LYS B 448 4.415 78.029 68.617 1.00 82.99 3604 CB LYS B 448 3.292 77.102 68.031 1.00 88.96 3605 CG LYS B 448 1.812 77.531 68.035 1.00 85.79 3606 CD LYS B 448 1.034 76.813 67.089 1.00 87.76 3607 CE LYS B 448 −0.305 77.719 66.689 1.00 92.06 3608 NZ LYS B 448 −1.490 76.757 66.440 1.00 92.58 3609 C LYS B 448 5.674 77.916 67.825 1.00 84.11 3610 O LYS B 448 6.166 78.859 67.367 1.00 82.85 3611 N LEU B 449 6.304 76.694 67.799 1.00 87.83 3612 CA LEU B 449 7.532 76.347 67.134 1.00 80.67 3613 CB LEU B 449 8.129 75.591 68.224 1.00 80.57 3614 CG LEU B 449 8.368 76.165 69.573 1.00 78.58 3615 CD1 LEU B 449 8.768 74.939 70.442 1.00 82.07 3616 CD2 LEU B 449 9.688 77.084 69.684 1.00 74.82 3617 C LEU B 449 7.267 75.353 65.939 1.00 77.71 3618 O LEU B 449 6.382 74.513 66.111 1.00 77.67 3619 N PRO B 450 8.133 75.376 64.934 1.00 71.21 3620 CA PRO B 450 8.214 74.509 63.793 1.00 73.98 3621 CB PRO B 450 9.454 74.915 63.105 1.00 68.98 3622 CG PRO B 450 9.464 76.294 63.381 1.00 67.90 3623 CD PRO B 450 9.142 76.345 64.922 1.00 69.62 3624 C PRO B 450 8.135 73.055 64.176 1.00 77.78 3625 O PRO B 450 8.994 72.666 64.840 1.00 83.46 3626 N PRO B 451 7.029 72.292 63.742 1.00 79.07 3627 CA PRO B 451 6.995 70.864 64.051 1.00 72.39 3628 CB PRO B 451 6.181 70.317 62.928 1.00 72.77 3629 CG PRO B 451 5.066 71.463 62.706 1.00 80.55 3630 CD PRO B 451 6.059 72.638 62.734 1.00 73.48 3631 C PRO B 451 8.377 70.203 64.101 1.00 69.63 3632 O PRO B 451 8.447 69.326 64.847 1.00 74.53 3633 N LEU B 452 9.267 70.673 63.327 1.00 67.85 3634 CA LEU B 452 10.622 70.096 63.322 1.00 68.90 3635 CB LEU B 452 11.275 70.644 62.138 1.00 63.66 3636 CG LEU B 452 12.609 69.903 62.065 1.00 67.29 3637 CD1 LEU B 452 12.666 68.400 62.235 1.00 78.79 3638 CD2 LEU B 452 13.805 70.222 60.707 1.00 64.79 3639 C LEU B 452 11.498 70.348 64.590 1.00 76.88 3640 O LEU B 452 12.329 69.590 65.011 1.00 76.42 3641 N LEU B 453 11.215 71.485 65.226 1.00 75.46 3642 CA LEU B 453 11.931 71.872 66.324 1.00 74.07 3643 CB LEU B 453 12.344 73.481 66.225 1.00 76.58 3644 CG LEU B 453 13.177 73.917 65.021 1.00 73.28 3645 CD1 LEU B 453 13.359 75.377 64.905 1.00 84.76 3646 CD2 LEU B 453 14.370 73.304 65.144 1.00 83.41 3647 C LEU B 453 10.997 71.555 67.373 1.00 72.22 3648 O LEU B 453 11.406 71.504 68.556 1.00 73.02 3649 N SER B 454 9.726 71.580 67.055 1.00 70.01 3650 CA SER B 454 8.763 71.270 68.090 1.00 73.57 3651 CB SER B 454 7.450 71.287 67.508 1.00 71.14 3652 OG SER B 454 6.551 70.409 68.142 1.00 74.80 3653 C SER B 454 9.104 69.817 68.646 1.00 78.17 3654 O SER B 454 8.730 69.476 69.704 1.00 73.62 3655 N GLU B 455 9.847 69.020 67.786 1.00 82.20 3656 CA GLU B 455 10.159 67.663 68.045 1.00 84.44 3657 CB GLU B 455 10.787 66.996 66.773 1.00 89.19 3658 CG GLU B 455 10.166 65.593 66.486 1.00 96.86 3659 CD GLU B 455 8.492 65.711 66.504 1.00 115.60 3660 OE1 GLU B 455 7.775 66.633 65.744 1.00 117.40 3661 OE2 GLU B 455 7.931 64.946 67.394 1.00 106.60 3662 C GLU B 455 11.219 67.481 69.107 1.00 80.43 3663 O GLU B 455 11.181 66.527 69.876 1.00 76.11 3664 N ILE B 456 12.137 68.411 69.062 1.00 75.65 3665 CA ILE B 456 13.198 68.334 70.069 1.00 80.83 3666 CB ILE B 456 14.488 68.753 69.504 1.00 78.83 3667 CG1 ILE B 456 14.135 68.610 67.952 1.00 73.26 3668 CD1 ILE B 456 15.216 69.380 67.297 1.00 77.02 3669 CG2 ILE B 456 15.625 67.777 69.854 1.00 78.31 3670 C ILE B 456 13.115 69.203 71.185 1.00 76.42 3671 O ILE B 456 13.565 68.806 72.158 1.00 79.20 3672 N TRP B 457 12.365 70.242 71.086 1.00 71.39 3673 CA TRP B 457 12.292 71.151 72.176 1.00 76.38 3674 CB TRP B 457 12.896 72.533 71.803 1.00 68.20 3675 CG TRP B 457 14.232 72.476 71.499 1.00 68.30 3676 CD1 TRP B 457 15.126 71.846 72.231 1.00 57.85 3677 NE1 TRP B 457 16.342 71.998 71.601 1.00 64.57 3678 CE2 TRP B 457 16.274 72.814 70.549 1.00 61.33 3679 CD2 TRP B 457 14.970 73.180 70.458 1.00 58.63 3680 CE3 TRP B 457 14.636 74.007 69.475 1.00 68.32 3681 CZ3 TRP B 457 15.566 74.400 68.431 1.00 53.89 3682 CH2 TRP B 457 16.898 74.074 68.568 1.00 59.04 3683 CZ2 TRP B 457 17.320 73.320 69.692 1.00 60.47 3684 C TRP B 457 11.004 71.380 73.030 1.00 79.49 3685 O TRP B 457 11.014 71.998 74.102 1.00 84.07 3686 N ASP B 458 9.909 70.953 72.589 1.00 81.55 3687 CA ASP B 458 8.792 71.192 73.405 1.00 88.84 3688 CB ASP B 458 7.559 71.444 72.515 1.00 91.13 3689 CG ASP B 458 6.894 72.822 72.763 1.00 93.15 3690 OD1 ASP B 458 6.473 73.295 71.709 1.00 89.76 3691 OD2 ASP B 458 6.706 73.413 73.940 1.00 80.41 3692 C ASP B 458 8.384 70.242 74.504 1.00 94.89 3693 O ASP B 458 8.794 70.470 75.790 1.00 103.33 3694 N VAL B 459 7.573 69.231 74.181 1.00 94.94 3695 CA VAL B 459 7.086 68.485 75.295 1.00 101.47 3696 CB VAL B 459 5.754 69.037 75.851 1.00 99.71 3697 CG1 VAL B 459 5.476 68.479 77.239 1.00 105.10 3698 CG2 VAL B 459 5.911 70.574 76.027 1.00 109.26 3699 C VAL B 459 7.116 66.947 75.396 1.00 104.18 3700 O VAL B 459 7.313 66.156 74.438 1.00 101.60 3701 N HIS B 460 6.874 66.555 76.675 1.00 107.43 3702 CA HIS B 460 7.073 65.202 77.282 1.00 107.42 3703 CB HIS B 460 8.072 65.379 78.452 1.00 107.83 3704 CG HIS B 460 9.321 64.541 78.343 1.00 106.96 3705 ND1 HIS B 460 9.320 63.161 78.038 1.00 106.22 3706 CE1 HIS B 460 10.563 62.706 78.071 1.00 102.14 3707 NE2 HIS B 460 11.360 63.731 78.314 1.00 105.06 3708 CD2 HIS B 460 10.609 64.889 78.537 1.00 101.46 3709 C HIS B 460 5.855 64.306 77.786 1.00 107.54 3710 O HIS B 460 5.948 63.795 78.950 1.00 102.46 3711 OXT HIS B 460 4.828 64.047 77.024 1.00 111.13 3712 F28 MON C 1 19.808 64.508 97.381 1.00 43.78 3713 C23 MON C 1 19.416 65.568 97.788 1.00 45.54 3714 F26 MON C 1 20.407 66.480 97.502 1.00 50.09 3715 F27 MON C 1 18.437 66.125 96.966 1.00 56.18 3716 C19 MON C 1 18.942 65.415 99.375 1.00 54.41 3717 N17 MON C 1 18.486 66.619 99.923 1.00 52.26 3718 C16 MON C 1 17.301 67.177 99.588 1.00 52.94 3719 C9 MON C 1 17.046 68.586 99.514 1.00 59.65 3720 C4 MON C 1 15.773 69.251 99.221 1.00 44.55 3721 C8 MON C 1 16.109 66.497 99.440 1.00 58.47 3722 C3 MON C 1 14.797 67.221 99.189 1.00 44.43 3723 C1 MON C 1 14.619 68.582 99.044 1.00 39.54 3724 C2 MON C 1 13.324 69.219 98.845 1.00 43.70 3725 O7 MON C 1 13.595 70.614 98.325 1.00 42.48 3726 C6 MON C 1 12.271 68.544 97.976 1.00 41.28 3727 F15 MON C 1 11.230 69.333 97.783 1.00 46.95 3728 F14 MON C 1 11.833 67.406 98.331 1.00 43.11 3729 F13 MON C 1 12.731 68.407 96.707 1.00 43.88 3730 C5 MON C 1 12.672 69.514 100.243 1.00 42.61 3731 F12 MON C 1 11.527 70.162 100.099 1.00 49.55 3732 F11 MON C 1 12.431 68.417 100.854 1.00 45.69 3733 F10 MON C 1 13.360 70.263 101.134 1.00 39.44 3734 S18 MON C 1 19.334 66.990 101.578 1.00 78.47 3735 O21 MON C 1 18.906 68.160 102.353 1.00 74.53 3736 O22 MON C 1 20.928 66.810 101.606 1.00 69.11 3737 C20 MON C 1 18.676 65.896 102.715 1.00 59.07 3738 C24 MON C 1 19.476 64.928 103.096 1.00 64.28 3739 C29 MON C 1 19.096 63.952 103.934 1.00 70.23 3740 C31 MON C 1 17.745 63.902 104.213 1.00 73.30 3741 C30 MON C 1 16.831 64.859 103.631 1.00 67.05 3742 C25 MON C 1 17.311 65.865 102.880 1.00 57.46 3743 F28 MON D 1 22.651 80.942 70.764 1.00 69.44 3744 C23 MON D 1 21.798 80.169 70.148 1.00 57.82 3745 F26 MON D 1 22.543 79.119 70.213 1.00 62.78 3746 F27 MON D 1 20.755 80.001 70.992 1.00 61.86 3747 C19 MON D 1 21.215 80.654 68.630 1.00 75.45 3748 N17 MON D 1 20.440 79.761 67.906 1.00 76.60 3749 C16 MON D 1 19.149 79.599 68.328 1.00 68.06 3750 C9 MON D 1 18.512 78.416 68.236 1.00 67.68 3751 C4 MON D 1 17.186 78.252 68.702 1.00 64.13 3752 C8 MON D 1 18.382 80.560 68.704 1.00 67.84 3753 C3 MON D 1 17.052 80.405 69.140 1.00 71.18 3754 C1 MON D 1 16.449 79.271 69.191 1.00 69.42 3755 C2 MON D 1 14.956 79.086 69.415 1.00 68.85 3756 O7 MON D 1 14.845 77.784 69.704 1.00 73.28 3757 C6 MON D 1 14.333 80.022 70.298 1.00 73.50 3758 F15 MON D 1 13.033 79.709 70.767 1.00 73.67 3759 F14 MON D 1 14.461 81.177 69.631 1.00 75.64 3760 F13 MON D 1 14.843 80.117 71.635 1.00 78.70 3761 C5 MON D 1 14.026 79.078 68.126 1.00 65.40 3762 F12 MON D 1 12.814 78.813 68.422 1.00 56.90 3763 F11 MON D 1 14.145 80.191 67.512 1.00 65.11 3764 F10 MON D 1 14.594 78.322 67.116 1.00 67.88 3765 S18 MON D 1 20.952 79.543 66.221 1.00 91.37 3766 O21 MON D 1 20.850 80.997 65.429 1.00 87.99 3767 O22 MON D 1 19.809 79.087 65.442 1.00 87.36 3768 C20 MON D 1 22.391 78.840 65.550 1.00 83.26 3769 C24 MON D 1 22.355 78.117 64.483 1.00 84.25 3770 C29 MON D 1 23.485 77.423 64.112 1.00 105.04 3771 C31 MON D 1 24.753 77.652 64.776 1.00 98.94 3772 C30 MON D 1 24.682 78.634 65.738 1.00 97.53 3773 C25 MON D 1 23.523 79.120 66.188 1.00 88.16 3774 F28 MON E 1 18.863 67.289 66.183 0.68 73.54 3775 C23 MON E 1 17.901 66.491 66.389 0.68 58.02 3776 F26 MON E 1 18.133 66.060 67.479 0.68 59.55 3777 F27 MON E 1 16.774 67.178 66.683 0.68 68.46 3778 C19 MON E 1 17.457 65.561 65.236 0.68 67.48 3779 N17 MON E 1 16.984 64.432 65.323 0.68 70.21 3780 C16 MON E 1 17.580 63.374 64.933 0.68 62.25 3781 C9 MON E 1 17.739 63.087 63.589 0.68 61.03 3782 C4 MON E 1 18.513 61.940 63.159 0.68 61.27 3783 C8 MON E 1 18.041 62.421 65.826 0.68 61.34 3784 C3 MON E 1 18.743 61.167 65.343 0.68 54.14 3785 C1 MON E 1 18.987 60.960 64.029 0.68 52.79 3786 C2 MON E 1 19.619 59.651 63.617 0.68 64.04 3787 O7 MON E 1 20.348 59.164 64.675 0.68 55.74 3788 C6 MON E 1 18.393 58.583 63.328 0.68 53.08 3789 F15 MON E 1 19.132 57.425 63.011 0.68 57.55 3790 F14 MON E 1 17.755 58.998 62.281 0.68 54.49 3791 F13 MON E 1 17.552 58.341 64.329 0.68 53.53 3792 C5 MON E 1 20.593 59.844 62.509 0.68 66.00 3793 F12 MON E 1 21.145 58.702 62.164 0.68 71.56 3794 F11 MON E 1 20.052 60.351 61.466 0.68 54.24 3795 F10 MON E 1 21.505 60.695 62.917 0.68 58.61 3796 S18 MON E 1 15.447 64.822 65.753 0.68 83.56 3797 O21 MON E 1 14.518 65.274 64.634 0.68 93.03 3798 O22 MON E 1 15.130 65.547 66.980 0.68 80.99 3799 C20 MON E 1 14.228 63.373 65.915 0.68 77.88 3800 C24 MON E 1 13.224 63.230 66.928 0.68 68.92 3801 C29 MON E 1 12.436 62.100 67.028 0.68 73.62 3802 C31 MON E 1 12.646 60.970 66.232 0.68 70.40 3803 C30 MON E 1 13.636 61.041 65.250 0.68 82.63 3804 C25 MON E 1 14.431 62.235 65.055 0.68 79.09 3805 O HOH W 2 28.763 91.475 95.071 1.00 39.87 3806 O HOH W 3 46.618 53.254 66.806 1.00 48.01 3807 O HOH W 4 28.768 71.285 63.182 1.00 59.05 3808 O HOH W 5 28.489 58.092 96.686 1.00 20.96 3809 O HOH W 6 33.736 54.376 64.043 1.00 59.64 3810 O HOH W 7 14.597 69.385 75.168 1.00 72.38 3811 O HOH W 8 18.802 70.558 72.353 1.00 53.73 3812 O HOH W 9 33.884 83.187 70.518 1.00 55.24 3813 O HOH W 10 22.912 96.047 71.861 1.00 55.92 3814 O HOH W 11 18.761 96.307 66.664 1.00 60.45 3815 O HOH W 12 30.903 80.413 80.693 1.00 40.55 3816 O HOH W 13 25.337 91.192 77.632 1.00 72.99 3817 O HOH W 14 34.871 85.846 83.379 1.00 46.70 3818 O HOH W 15 29.736 65.196 80.159 1.00 57.86 3819 O HOH W 16 23.629 94.190 90.119 1.00 28.94 3820 O HOH W 17 17.330 58.608 82.548 1.00 54.28 3821 O HOH W 18 34.366 59.527 79.752 1.00 55.89 3822 O HOH W 19 44.065 83.193 100.457 1.00 79.63 3823 O HOH W 20 30.075 69.132 105.305 1.00 75.54 3824 O HOH W 21 30.061 70.867 103.341 1.00 62.79 3825 O HOH W 22 14.365 58.842 111.595 1.00 56.40 3826 O HOH W 23 2.852 72.225 103.788 1.00 58.58 3827 O HOH W 24 8.238 72.237 111.123 1.00 64.18 3828 O HOH W 25 35.890 83.185 103.291 1.00 37.51 3829 O HOH W 26 40.472 81.808 96.420 1.00 50.13 3830 O HOH W 27 34.642 91.721 104.562 1.00 51.95 3831 O HOH W 28 26.151 85.227 103.132 1.00 62.19 3832 O HOH W 29 20.708 86.222 94.639 1.00 37.83 3833 O HOH W 30 20.141 75.780 95.140 1.00 28.16 3834 O HOH W 31 23.371 64.729 103.731 1.00 54.24 3835 O HOH W 32 29.196 52.130 105.039 1.00 54.15 3836 O HOH W 33 21.723 58.410 113.952 1.00 56.23 3837 O HOH W 34 14.086 56.629 108.755 1.00 64.61 3838 O HOH W 35 14.464 63.003 85.862 1.00 60.12 3839 O HOH W 36 34.911 56.785 97.989 1.00 50.01 3840 O HOH W 37 38.951 63.054 106.082 1.00 52.37 3841 O HOH W 38 31.326 77.306 84.904 1.00 45.71 3842 O HOH W 39 29.270 92.583 85.702 1.00 35.13 3843 O HOH W 40 47.229 63.071 97.529 1.00 61.45 3844 O HOH W 41 46.228 60.875 98.976 1.00 63.36 3845 O HOH W 42 40.920 51.820 95.056 1.00 57.34 3846 O HOH W 43 47.377 55.626 89.451 1.00 49.82 3847 O HOH W 44 45.228 58.061 81.927 1.00 67.31 3848 O HOH W 45 37.354 61.041 81.512 1.00 55.21 3849 O HOH W 46 26.553 61.536 86.551 1.00 48.38 3850 O HOH W 47 23.871 57.832 86.725 1.00 63.15 3851 O HOH W 48 21.351 75.888 87.379 1.00 55.36 3852 O HOH W 49 16.336 66.979 82.247 1.00 52.35 3853 O HOH W 50 20.491 78.894 89.268 1.00 49.24 3854 O HOH W 51 8.641 79.155 97.921 1.00 41.86 3855 O HOH W 52 28.754 57.106 99.998 1.00 22.16 3856 O HOH W 53 27.743 79.059 92.733 1.00 24.38 3857 O HOH W 54 25.166 51.962 95.208 1.00 28.66 3858 O HOH W 55 23.573 60.455 101.796 1.00 26.48 3859 O HOH W 56 26.250 69.724 78.744 1.00 31.75 3860 O HOH W 57 34.323 60.294 100.383 1.00 40.53 3861 O HOH W 58 27.486 72.953 88.697 1.00 28.68 3862 O HOH W 59 34.889 90.573 88.517 1.00 31.09 3863 O HOH W 60 33.283 58.848 95.676 1.00 31.39 3864 O HOH W 61 30.953 58.858 97.106 1.00 23.93 3865 O HOH W 62 22.512 52.171 95.445 1.00 27.62 3866 O HOH W 63 20.598 70.234 76.468 1.00 51.57 3867 O HOH W 64 12.319 64.060 118.862 1.00 55.13 3868 O HOH W 65 31.209 90.825 94.490 1.00 39.05 3869 O HOH W 66 23.791 79.639 85.574 1.00 41.46 3870 O HOH W 67 37.984 84.467 81.167 1.00 33.22 3871 O HOH W 68 18.599 76.019 92.910 1.00 39.06 3872 O HOH W 69 28.327 53.170 101.909 1.00 35.64 3873 O HOH W 70 17.201 75.206 88.495 1.00 43.62 3874 O HOH W 71 19.557 52.534 71.813 1.00 43.84 3875 O HOH W 72 31.383 86.335 79.832 1.00 31.19 3876 O HOH W 73 45.534 69.874 81.890 1.00 70.44 3877 O HOH W 74 23.398 78.113 87.971 1.00 41.72 3878 O HOH W 75 24.985 79.636 81.937 1.00 40.70 3879 O HOH W 76 35.214 56.538 86.573 1.00 61.87 3880 O HOH W 77 8.312 72.048 61.316 1.00 51.15 3881 O HOH W 78 54.583 67.580 79.761 1.00 92.40 3882 O HOH W 79 30.058 58.304 87.420 1.00 45.56 3883 O HOH W 80 15.658 57.937 72.486 1.00 49.88 3884 O HOH W 81 38.406 60.747 103.355 1.00 49.62 3885 O HOH W 82 45.112 73.835 79.366 1.00 57.23 3886 O HOH W 83 24.311 56.019 87.791 1.00 49.24 3887 O HOH W 84 11.054 91.063 75.823 1.00 62.21 3888 O HOH W 85 25.110 79.361 60.187 1.00 70.53 3889 O HOH W 86 21.814 61.622 88.069 1.00 45.93 3890 O HOH W 87 17.326 70.560 74.981 1.00 49.19 3891 O HOH W 88 27.869 64.366 81.736 1.00 72.04 3892 O HOH W 89 32.821 76.136 112.204 1.00 54.40 3893 O HOH W 90 33.796 83.623 82.106 1.00 54.68 3894 O HOH W 91 18.105 70.460 58.689 1.00 51.59 3895 O HOH W 92 21.706 82.125 101.976 1.00 57.32 3896 O HOH W 93 27.381 71.426 59.765 1.00 58.02 3897 O HOH W 94 27.472 55.467 86.841 1.00 49.46 3898 O HOH W 95 22.395 88.520 95.592 1.00 50.28 3899 O HOH W 96 −5.048 60.064 109.413 1.00 67.72 3900 O HOH W 97 14.636 51.620 97.555 1.00 72.51 3901 O HOH W 98 46.663 68.262 64.814 1.00 59.94 3902 O HOH W 99 51.526 66.481 63.513 1.00 60.60 3903 O HOH W 100 12.853 73.278 56.067 1.00 70.36 3904 O HOH W 101 17.395 50.850 69.827 1.00 51.25 3905 O HOH W 102 37.188 84.773 68.441 1.00 53.49 3906 O HOH W 103 26.301 84.156 54.117 1.00 74.97 3907 O HOH W 104 15.569 53.268 106.007 1.00 68.93 3908 O HOH W 105 11.106 82.832 80.170 1.00 52.24 3909 O HOH W 106 9.827 84.209 83.460 1.00 64.61 3910 O HOH W 107 39.542 90.057 76.485 1.00 58.59 3911 O HOH W 108 42.229 77.453 63.523 1.00 76.86 3912 O HOH W 109 27.370 67.242 78.876 1.00 41.58 3913 O HOH W 110 37.384 55.312 98.950 1.00 56.58 3914 O HOH W 111 31.815 58.721 100.040 1.00 43.21 3915 O HOH W 112 31.506 55.285 100.972 1.00 63.15 3916 O HOH W 113 38.178 54.915 91.789 1.00 58.54 3917 O HOH W 114 41.103 63.301 102.308 1.00 52.30 3918 O HOH W 115 19.518 79.361 85.632 1.00 56.13 3919 O HOH W 116 17.896 87.232 86.207 1.00 53.56 3920 O HOH W 117 13.629 61.460 82.107 1.00 53.88 3921 O HOH W 118 16.966 63.736 84.587 1.00 65.21 3922 O HOH W 119 28.949 48.535 78.225 1.00 54.95 3923 O HOH W 120 31.452 49.739 78.799 1.00 55.62 3924 O HOH W 121 19.965 71.727 82.620 1.00 60.17 3925 O HOH W 122 0.228 75.953 71.014 1.00 76.55 3926 O HOH W 123 0.158 73.725 64.810 1.00 65.34 3927 O HOH W 124 43.121 67.781 107.834 1.00 68.84 3928 O HOH W 125 42.068 71.355 112.215 1.00 71.87 3929 O HOH W 126 40.486 64.768 112.276 1.00 58.12 3930 O HOH W 127 35.045 83.128 108.243 1.00 81.25 3931 O HOH W 128 33.826 80.790 112.590 1.00 57.74 3932 O HOH W 129 30.755 80.445 110.066 1.00 68.05 3933 O HOH W 130 23.881 66.592 107.341 1.00 55.54 3934 O HOH W 131 21.181 65.654 120.113 1.00 66.27 3935 O HOH W 132 −1.340 56.710 98.372 1.00 70.45 3936 O HOH W 133 −3.291 66.354 109.085 1.00 76.45 3937 O HOH W 134 −0.721 72.343 105.882 1.00 90.08 3938 O HOH W 135 18.563 85.475 104.514 1.00 66.59 3939 O HOH W 136 21.187 86.326 106.734 1.00 62.94 3940 O HOH W 137 24.589 87.631 107.644 1.00 51.47 3941 O HOH W 138 25.316 87.133 104.100 1.00 69.03 3942 O HOH W 139 19.895 84.386 100.975 1.00 66.18 3943 O HOH W 140 24.239 84.741 106.617 1.00 59.66 3944 O HOH W 141 41.754 83.998 98.620 1.00 71.11 3945 O HOH W 142 32.225 59.750 103.596 1.00 56.52 3946 O HOH W 143 11.765 49.929 100.176 1.00 64.61 3947 O HOH W 144 7.717 53.143 96.964 1.00 63.33 3948 O HOH W 145 40.860 54.461 84.748 1.00 90.92 3949 O HOH W 146 15.363 84.742 107.809 1.00 64.26 3950 O HOH W 147 15.633 85.708 99.119 1.00 67.76 3951 O HOH W 148 7.601 76.855 91.970 1.00 60.58 3952 O HOH W 149 9.623 82.594 90.860 1.00 72.36 3953 O HOH W 150 24.202 89.335 92.759 1.00 43.28 3954 O HOH W 151 24.526 64.149 74.154 1.00 36.12 3955 O HOH W 152 45.473 55.901 61.786 1.00 65.50 3956 O HOH W 153 29.439 74.941 88.426 1.00 26.89 3957 O HOH W 154 37.914 91.765 66.016 1.00 90.43 3958 O HOH W 155 14.460 76.420 92.234 1.00 55.50 3959 O HOH W 156 8.236 67.697 61.549 1.00 63.32 3960 O HOH W 157 29.107 60.295 79.228 1.00 43.90 3961 O HOH W 158 26.638 76.154 60.795 1.00 58.93 3962 O HOH W 159 33.709 80.210 87.528 1.00 38.57 3963 O HOH W 160 40.715 82.585 84.782 1.00 68.42 3964 O HOH W 161 11.233 56.537 68.262 1.00 63.15 3965 O HOH W 162 21.975 64.415 85.175 1.00 40.81 3966 O HOH W 163 21.602 75.374 90.625 1.00 41.66 3967 O HOH W 164 43.202 83.556 90.439 1.00 44.45 3968 O HOH W 165 47.305 61.806 77.748 1.00 56.29 3969 O HOH W 166 16.383 73.291 75.523 1.00 44.82 3970 O HOH W 167 29.502 82.147 80.221 1.00 45.92 3971 O HOH W 168 55.133 60.635 74.223 1.00 74.10 3972 O HOH W 169 53.642 66.189 77.639 1.00 67.27 3973 O HOH W 170 32.023 76.158 86.775 1.00 50.78 3974 O HOH W 171 42.714 59.651 72.633 1.00 45.98 3975 O HOH W 172 26.008 50.088 106.857 1.00 40.13 3976 O HOH W 173 24.123 74.327 110.723 1.00 62.76 3977 O HOH W 174 43.725 70.645 61.138 1.00 66.39 3978 O HOH W 175 14.448 62.212 116.064 1.00 62.04 3979 O HOH W 176 22.321 95.254 69.714 1.00 63.47 3980 O HOH W 177 42.597 84.404 72.736 1.00 66.33 3981 O HOH W 178 39.815 56.522 94.119 1.00 51.02 3982 O HOH W 179 48.572 80.734 89.655 1.00 58.93 3983 O HOH W 180 17.082 49.172 97.561 1.00 55.92 3984 O HOH W 181 33.421 65.376 55.404 1.00 53.64 3985 O HOH W 182 30.691 93.733 74.873 1.00 60.59 3986 O HOH W 183 43.334 61.083 90.066 1.00 52.70 3987 O HOH W 184 47.929 50.409 83.769 1.00 73.41 3988 O HOH W 185 27.889 62.068 57.384 1.00 58.23 3989 O HOH W 186 2.632 58.059 112.990 1.00 55.10 3990 O HOH W 187 49.666 81.692 68.959 1.00 69.04 3991 O HOH W 188 21.840 96.023 88.622 1.00 56.16 3992 O HOH W 189 20.531 81.031 91.634 1.00 48.68 3993 O HOH W 190 13.144 52.725 91.050 1.00 74.72 3994 O HOH W 191 16.078 55.158 84.219 1.00 76.76 3995 O HOH W 192 21.973 94.500 78.308 1.00 54.35 3996 O HOH W 193 16.039 69.725 82.713 1.00 58.13 3997 O HOH W 194 29.925 92.916 101.327 1.00 55.39 3998 O HOH W 195 39.875 83.519 69.873 1.00 76.51 3999 O HOH W 196 33.547 79.050 116.541 1.00 58.96 4000 O HOH W 197 31.777 97.620 69.127 1.00 58.13 4001 O HOH W 198 19.289 81.660 108.573 1.00 54.02 4002 O HOH W 199 19.307 90.323 83.858 1.00 73.87 4003 O HOH W 200 42.438 81.165 77.189 1.00 57.30 4004 O HOH W 201 24.719 88.867 111.158 1.00 71.06 4005 O HOH W 202 14.752 82.372 79.831 1.00 50.46 4006 O HOH W 203 29.593 62.478 107.228 1.00 56.35 4007 O HOH W 204 44.276 54.216 84.906 1.00 63.06 4008 O HOH W 205 43.714 79.770 68.714 1.00 53.81 4009 O HOH W 206 10.195 74.128 58.090 1.00 67.94 4010 O HOH W 207 52.198 56.890 69.158 1.00 82.99 4011 O HOH W 208 41.501 55.621 88.559 1.00 58.64 4012 O HOH W 209 12.404 54.801 113.084 1.00 61.38 4013 O HOH W 210 20.935 85.398 102.822 1.00 59.61 4014 O HOH W 211 1.884 58.378 100.966 1.00 52.81 4015 O HOH W 212 44.292 66.241 113.852 1.00 62.95 4016 O HOH W 213 20.461 99.227 68.950 1.00 81.54 4017 O HOH W 214 54.282 63.551 95.771 1.00 73.65 4018 O HOH W 215 52.630 59.645 95.163 1.00 61.37 4019 O HOH W 216 43.847 74.747 108.470 1.00 47.79 4020 O HOH W 217 13.821 49.683 70.834 1.00 62.38 4021 O HOH W 218 30.134 58.491 54.366 1.00 60.17 4022 O HOH W 219 19.590 62.628 116.493 1.00 64.94 4023 O HOH W 220 10.033 74.052 109.418 1.00 60.61 4024 O HOH W 221 37.721 52.622 84.421 1.00 52.75 4025 O HOH W 222 4.965 79.234 106.393 1.00 54.50 4026 O HOH W 223 35.059 78.092 85.271 1.00 79.95 4027 O HOH W 224 41.104 59.402 59.846 1.00 67.70 4028 O HOH W 225 0.204 75.441 102.085 1.00 72.03 4029 O HOH W 226 27.249 75.955 121.137 1.00 96.12 4030 O HOH W 227 40.480 81.950 80.258 1.00 69.28 4031 O HOH W 228 13.904 89.137 105.643 1.00 73.36 4032 O HOH W 229 18.966 46.160 73.696 1.00 60.83 4033 O HOH W 230 25.204 95.032 76.561 1.00 55.01 4034 O HOH W 231 44.154 87.852 102.404 1.00 81.52 4035 O HOH W 232 15.734 50.286 102.580 1.00 73.57 4036 O HOH W 233 34.230 91.950 53.379 1.00 64.79 4037 O HOH W 234 34.028 88.196 54.572 1.00 76.62 4038 O HOH W 235 6.510 81.703 81.936 1.00 67.44 4039 O HOH W 236 31.250 46.769 80.109 1.00 59.73 4040 O HOH W 237 −4.328 66.322 104.598 1.00 72.03 4041 O HOH W 238 −5.175 65.411 111.235 1.00 80.31 4042 O HOH W 239 42.619 86.327 93.196 1.00 55.26 4043 O HOH W 240 53.056 58.639 77.745 1.00 67.77 4044 O HOH W 241 55.986 68.627 74.749 1.00 67.32 4045 O HOH W 242 26.578 51.838 109.039 1.00 68.47 4046 O HOH W 243 27.401 98.889 69.713 1.00 65.37 4047 O HOH W 244 38.092 57.444 100.192 1.00 67.48 4048 O HOH W 245 5.883 60.647 120.458 1.00 62.41 4049 O HOH W 246 24.874 95.610 80.166 1.00 65.09 4050 O HOH W 247 31.317 98.945 72.700 1.00 55.79 4051 O HOH W 248 42.019 81.867 65.318 1.00 64.05 4052 O HOH W 249 11.354 77.091 54.840 1.00 58.78 4053 O HOH W 250 2.257 54.062 96.344 1.00 69.03 4054 O HOH W 251 21.865 103.114 67.026 1.00 88.24 4055 O HOH W 252 25.783 79.878 112.404 1.00 71.73 4056 O HOH W 254 15.451 47.612 78.503 1.00 58.78 4057 O HOH W 255 20.013 42.200 74.057 1.00 54.88 4058 O HOH W 256 47.186 86.427 95.913 1.00 69.52 4059 O HOH W 257 42.710 86.262 96.986 1.00 69.38 4060 O HOH W 258 32.597 86.812 48.714 1.00 80.06 4061 O HOH W 259 0.686 79.870 83.804 1.00 69.66 4062 O HOH W 260 53.472 56.751 82.708 1.00 63.88 4063 O HOH W 261 8.076 56.013 119.805 1.00 75.94 4064 O HOH W 262 3.711 56.666 118.238 1.00 61.92 4065 O HOH W 263 8.577 61.095 122.359 1.00 79.31 4066 O HOH W 264 1.591 76.706 58.691 1.00 61.27 4067 O HOH W 265 9.902 70.303 56.931 1.00 64.53 4068 O HOH W 266 3.286 73.378 61.337 1.00 70.97 4069 O HOH W 267 1.544 57.048 89.873 1.00 66.17 4070 O HOH W 268 58.203 52.547 96.098 1.00 59.53 4071 O HOH W 269 55.863 59.303 86.462 1.00 86.54 4072 O HOH W 270 39.454 93.055 102.022 1.00 73.13 4073 O HOH W 271 57.151 62.618 85.040 1.00 60.06 4074 O HOH W 272 61.388 66.554 79.136 1.00 75.24 4075 O HOH W 273 16.444 65.572 76.282 1.00 48.26 4076 O HOH W 274 −7.019 56.050 104.617 1.00 68.20 4077 O HOH W 275 41.260 91.689 99.772 1.00 75.60 4078 O HOH W 276 7.750 72.640 69.911 1.00 65.48 4079 O HOH W 277 −0.534 56.593 93.766 1.00 55.74 4080 O HOH W 278 45.690 60.610 73.854 1.00 55.45 4081 O HOH W 279 43.232 79.073 98.278 1.00 68.39 4082 O HOH W 280 33.018 56.513 99.871 1.00 47.87 4083 O HOH W 281 12.875 91.417 62.202 1.00 50.60 4084 O HOH W 282 23.740 91.795 87.843 1.00 50.12 4085 O HOH W 283 33.901 87.154 60.631 1.00 57.12 4086 O HOH W 284 50.111 69.534 88.258 1.00 61.69 4087 O HOH W 285 22.172 79.896 108.037 1.00 49.77 4088 O HOH W 286 21.199 90.174 96.915 1.00 62.16 4089 O HOH W 287 41.370 77.951 75.054 1.00 93.44 4090 O HOH W 288 −3.670 64.205 109.234 1.00 80.74 4091 O HOH W 289 44.099 65.205 84.325 1.00 65.13 4092 O HOH W 290 18.230 84.669 98.089 1.00 73.24 4093 O HOH W 291 6.251 58.894 82.343 1.00 56.09 4094 O HOH W 292 4.533 87.103 81.626 1.00 62.59 4095 O HOH W 293 39.869 75.490 108.817 1.00 45.54 4096 O HOH W 294 23.699 54.140 107.333 1.00 46.52 4097 O HOH W 295 44.615 81.058 87.775 1.00 51.98 4098 O HOH W 296 5.134 86.562 85.564 1.00 59.40 4099 O HOH W 297 6.400 75.372 58.580 1.00 95.89 4100 O HOH W 298 15.511 101.122 67.844 1.00 83.89 4101 O HOH W 299 15.805 52.427 83.025 1.00 54.36 4102 O HOH W 300 31.021 74.527 57.113 1.00 58.88 4103 O HOH W 301 27.315 76.686 57.795 1.00 64.74 4104 O HOH X 302 16.794 73.496 92.416 1.00 43.24 4105 O HOH X 303 25.310 69.852 104.407 1.00 40.75 4106 O HOH X 304 14.601 56.696 93.871 1.00 64.02 4107 O HOH X 305 21.573 63.907 101.673 1.00 61.34 4108 O HOH X 306 47.225 61.635 66.073 1.00 72.40 4109 O HOH X 307 27.850 51.658 107.180 1.00 61.47 4110 O HOH X 308 4.828 61.226 96.660 1.00 63.69 4111 O HOH X 309 18.843 89.280 66.555 1.00 67.83 4112 O HOH X 310 31.275 70.993 63.564 1.00 76.09 4113 O HOH X 311 11.055 79.338 71.713 1.00 87.73 4114 O HOH X 312 35.732 92.142 66.782 1.00 70.59 4115 O HOH X 313 45.991 70.742 79.189 1.00 50.63 4116 O HOH X 314 42.103 62.040 87.599 1.00 58.63 4117 O HOH X 315 21.915 81.889 51.317 1.00 70.16 4118 O HOH X 316 19.123 72.199 60.303 1.00 49.30 4119 O HOH X 317 17.023 63.306 68.075 1.00 69.61 4120 O HOH X 318 20.375 72.024 116.048 1.00 68.20 4121 O HOH X 319 26.175 77.621 62.544 1.00 79.76 4122 O HOH X 320 44.798 57.627 62.912 1.00 96.29 4123 O HOH X 321 34.264 87.734 78.140 1.00 59.27 4124 O HOH X 322 36.913 85.471 83.195 1.00 68.12 4125 O HOH X 323 21.300 65.553 105.006 1.00 67.05 4126 O HOH X 324 22.477 83.111 92.028 1.00 45.27 4127 O HOH X 325 29.919 63.783 57.812 1.00 78.09 4128 O HOH X 326 21.773 58.872 81.134 1.00 50.84 4129 O HOH X 327 9.524 55.783 94.636 1.00 70.31 4130 O HOH X 328 49.945 71.633 88.156 1.00 60.20 4131 O HOH X 329 46.051 80.340 75.306 1.00 66.68 4132 O HOH X 330 19.780 53.571 86.923 1.00 52.32 4133 O HOH X 331 33.754 59.963 85.790 1.00 79.38 4134 O HOH X 332 44.741 56.622 88.452 1.00 83.35 4135 O HOH X 333 13.601 64.513 112.251 1.00 85.96 4136 O HOH X 334 24.193 61.120 87.313 1.00 54.44 4137 O HOH X 335 48.193 76.404 103.259 1.00 68.76 4138 O HOH X 336 9.407 73.167 71.266 1.00 74.67 4139 O HOH X 337 22.838 91.635 90.182 1.00 57.23

[0378] TABLE 4 ATOMIC COORDINATE DATA FOR HUMAN RARγ EMPLOYED IN THE MOLECULAR REPLACEMENT SOLUTION OF HUMAN LXR LIGAND BINDING DOMAIN CRYSTALS ATOM ATOM TYPE RESIDUE PROTEIN # # X Y Z BCC O 1 CB LEU A 182 −27.418 −10.420 −1.042 1.00 32.61 2 CG LEU A 182 −27.812 −11.853 −0.661 1.00 33.33 3 CD1 LEU A 182 −26.844 −12.934 −1.224 1.00 33.15 4 CD2 LEU A 182 −27.818 −11.894 0.872 1.00 32.41 5 C LEU A 182 −26.797 −8.358 −2.226 1.00 31.66 6 O LEU A 182 −25.593 −8.099 −2.172 1.00 31.81 7 N LEU A 182 −26.227 −10.497 −3.276 1.00 33.77 8 CA LEU A 182 −27.267 −9.788 −2.446 1.00 33.01 9 N SER A 183 −27.741 −7.437 −2.073 1.00 30.24 10 CA SER A 183 −27.379 −6.058 −1.802 1.00 26.79 11 CB SER A 183 −28.588 −5.139 −1.923 1.00 26.27 12 OG SER A 183 −29.258 −5.339 −3.148 1.00 27.42 13 C SER A 183 −26.871 −6.058 −0.370 1.00 25.85 14 O SER A 183 −25.798 −5.515 −0.086 1.00 25.47 15 N PRO A 184 −27.599 −6.747 0.544 1.00 24.99 16 CD PRO A 184 −28.906 −7.426 0.422 1.00 22.22 17 CA PRO A 184 −27.136 −6.766 1.933 1.00 22.12 18 CB PRO A 184 −28.236 −7.546 2.655 1.00 23.65 19 CG PRO A 184 −28.899 −8.334 1.575 1.00 23.82 20 C PRO A 184 −25.778 −7.392 2.070 1.00 20.98 21 O PRO A 184 −24.944 −6.888 2.815 1.00 22.89 22 N ALA A 185 −25.528 −8.436 1.290 1.00 18.94 23 CA ALA A 185 −24.245 −9.136 1.293 1.00 17.11 24 CB ALA A 185 −24.290 −10.281 0.316 1.00 19.74 25 C ALA A 185 −23.123 −8.181 0.909 1.00 16.78 26 O ALA A 185 −22.072 −8.152 1.553 1.00 15.58 27 N LEU A 186 −23.346 −7.439 −0.171 1.00 16.27 28 CA LEU A 186 −22.402 −6.451 −0.636 1.00 17.77 29 CB LEU A 186 −22.876 −5.795 −1.931 1.00 21.12 30 CG LEU A 186 −22.329 −6.276 −3.281 1.00 25.48 31 CD1 LEU A 186 −22.491 −5.150 −4.303 1.00 26.32 32 CD2 LEU A 186 −20.847 −6.665 −3.196 1.00 26.08 33 C LEU A 186 −22.222 −5.354 0.407 1.00 16.80 34 O LEU A 186 −21.121 −4.846 0.587 1.00 17.47 35 N GLU A 187 −23.287 −4.971 1.090 1.00 14.83 36 CA GLU A 187 −23.149 −3.925 2.078 1.00 14.29 37 CB GLU A 187 −24.498 −3.501 2.644 1.00 13.39 38 CG GLU A 187 −25.438 −2.902 1.603 1.00 17.47 39 CD GLU A 187 −24.911 −1.645 0.907 1.00 18.66 40 OE1 GLU A 187 −23.993 −0.982 1.433 1.00 19.34 41 OE2 GLU A 187 −25.446 −1.303 −0.166 1.00 18.74 42 C GLU A 187 −22.255 −4.371 3.196 1.00 15.23 43 O GLU A 187 −21.495 −3.579 3.717 1.00 14.48 44 N GLU A 188 −22.367 −5.628 3.607 1.00 16.77 45 CA GLU A 188 −21.526 −6.118 4.689 1.00 19.26 46 CB GLU A 188 −22.175 −7.317 5.353 1.00 21.32 47 CG GLU A 188 −23.398 −6.845 6.134 1.00 28.68 48 CD GLU A 188 −24.275 −7.966 6.623 1.00 30.83 49 OE1 GLU A 188 −25.360 −8.187 6.035 1.00 32.28 50 OE2 GLU A 188 −23.887 −8.615 7.611 1.00 34.12 51 C GLU A 188 −20.061 −6.366 4.321 1.00 18.83 52 O GLU A 188 −19.174 −6.172 5.147 1.00 18.44 53 N LEU A 189 −19.805 −6.729 3.069 1.00 17.42 54 CA LEU A 189 −18.453 −6.953 2.591 1.00 16.55 55 CB LEU A 189 −18.512 −7.441 1.148 1.00 16.21 56 CG LEU A 189 −17.453 −8.406 0.612 1.00 17.60 57 CD1 LEU A 189 −17.165 −8.041 −0.823 1.00 15.95 58 CD2 LEU A 189 −16.205 −8.340 1.414 1.00 14.51 59 C LEU A 189 −17.728 −5.593 2.656 1.00 16.84 60 O LEU A 189 −16.558 −5.513 3.017 1.00 17.45 61 N ILE A 190 −18.449 −4.535 2.305 1.00 16.26 62 CA ILE A 190 −17.926 −3.189 2.322 1.00 15.67 63 CB ILE A 190 −18.964 −2.176 1.775 1.00 14.53 64 CG2 ILE A 190 −18.452 −0.762 1.952 1.00 14.55 65 CG1 ILE A 190 −19.203 −2.438 0.289 1.00 14.16 66 CD1 ILE A 190 −20.363 −1.652 −0.369 1.00 15.08 67 C ILE A 190 −17.512 −2.808 3.737 1.00 16.88 68 O ILE A 190 −16.428 −2.271 3.952 1.00 16.52 69 N THR A 191 −18.379 −3.090 4.703 1.00 18.22 70 CA THR A 191 −18.115 −2.803 6.108 1.00 18.80 71 CB THR A 191 −19.328 −3.082 6.930 1.00 17.79 72 OG1 THR A 191 −20.333 −2.147 6.560 1.00 20.38 73 CG2 THR A 191 −19.024 −2.939 8.390 1.00 18.36 74 C THR A 191 −16.963 −3.623 6.653 1.00 20.64 75 O THR A 191 −16.101 −3.083 7.337 1.00 22.47 76 N LYS A 192 −16.948 −4.918 6.360 1.00 19.94 77 CA LYS A 192 −15.875 −5.774 6.816 1.00 20.28 78 CB LYS A 192 −16.162 −7.223 6.451 1.00 22.80 79 CG LYS A 192 −17.174 −7.832 7.439 1.00 26.17 80 CD LYS A 192 −17.835 −9.116 6.972 1.00 27.88 81 CE LYS A 192 −18.790 −9.613 8.072 1.00 29.77 82 NZ LYS A 192 −20.058 −10.190 7.537 1.00 32.37 83 C LYS A 192 −14.532 −5.312 6.288 1.00 20.29 84 O LYS A 192 −13.644 −4.992 7.064 1.00 21.51 85 N VAL A 193 −14.395 −5.201 4.976 1.00 20.89 86 CA VAL A 193 −13.142 −4.743 4.392 1.00 19.43 87 CB VAL A 193 −13.254 −4.626 2.876 1.00 20.16 88 CG1 VAL A 193 −12.043 −3.930 2.312 1.00 20.33 89 CG2 VAL A 193 −13.402 −6.003 2.265 1.00 16.58 90 C VAL A 193 −12.748 −3.400 4.988 1.00 19.77 91 O VAL A 193 −11.640 −3.230 5.459 1.00 20.14 92 N SER A 194 −13.684 −2.464 5.018 1.00 21.53 93 CA SER A 194 −13.438 −1.124 5.560 1.00 21.04 94 CB SER A 194 −14.738 −0.328 5.609 1.00 19.63 95 OG SER A 194 −14.496 0.998 6.016 1.00 19.69 96 C SER A 194 −12.812 −1.169 6.946 1.00 21.80 97 O SER A 194 −11.778 −0.549 7.187 1.00 21.17 98 N LYS A 195 −13.448 −1.919 7.840 1.00 22.99 99 CA LYS A 195 −13.006 −2.093 9.218 1.00 22.87 100 CB LYS A 195 −14.048 −2.881 10.015 1.00 23.64 101 CG LYS A 195 −15.116 −1.991 10.650 1.00 28.29 102 CD LYS A 195 −15.080 −0.578 10.043 1.00 30.25 103 CE LYS A 195 −16.005 0.403 10.767 1.00 32.32 104 NZ LYS A 195 −15.549 0.724 12.161 1.00 33.22 105 C LYS A 195 −11.649 −2.752 9.319 1.00 22.28 106 O LYS A 195 −10.822 −2.311 10.092 1.00 23.38 107 N ALA A 196 −11.407 −3.801 8.543 1.00 21.84 108 CA ALA A 196 −10.115 −4.464 8.587 1.00 21.79 109 CB ALA A 196 −10.096 −5.682 7.660 1.00 20.88 110 C ALA A 196 −9.054 −3.446 8.176 1.00 21.34 111 O ALA A 196 −7.982 −3.371 8.777 1.00 23.62 112 N HIS A 197 −9.349 −2.627 7.174 1.00 20.81 113 CA HIS A 197 −8.377 −1.624 6.762 1.00 20.38 114 CB HIS A 197 −8.776 −0.931 5.468 1.00 18.26 115 CG HIS A 197 −7.852 0.177 5.088 1.00 19.16 116 CD2 HIS A 197 −7.957 1.517 5.242 1.00 17.84 117 ND1 HIS A 197 −6.634 −0.043 4.478 1.00 19.65 118 CE1 HIS A 197 −6.034 1.112 4.266 1.00 18.43 119 NE2 HIS A 197 −6.817 2.073 4.718 1.00 20.25 120 C HIS A 197 −8.152 −0.585 7.871 1.00 21.21 121 O HIS A 197 −7.013 −0.296 8.243 1.00 22.59 122 N GLN A 198 −9.224 −0.037 8.419 1.00 21.25 123 CA GLN A 198 −9.070 0.951 9.463 1.00 23.59 124 CB GLN A 198 −10.427 1.387 9.948 1.00 26.42 125 CG GLN A 198 −11.141 2.386 9.083 1.00 29.27 126 CD GLN A 198 −12.553 2.537 9.568 1.00 30.05 127 OE1 GLN A 198 −12.820 2.362 10.762 1.00 31.98 128 NE2 GLN A 198 −13.485 2.764 8.647 1.00 31.27 129 C GLN A 198 −8.275 0.423 10.653 1.00 24.07 130 O GLN A 198 −7.373 1.090 11.170 1.00 25.03 131 N GLU A 199 −8.633 −0.777 11.089 1.00 25.01 132 CA GLU A 199 −7.991 −1.437 12.214 1.00 24.53 133 CB GLU A 199 −8.771 −2.675 12.599 1.00 24.38 134 CG GLU A 199 −10.086 −2.311 13.229 1.00 27.91 135 CD GLU A 199 −10.859 −3.511 13.707 1.00 29.06 136 OE1 GLU A 199 −12.107 −3.480 13.615 1.00 32.53 137 OE2 GLU A 199 −10.225 −4.477 14.194 1.00 30.26 138 C GLU A 199 −6.539 −1.784 12.002 1.00 23.37 139 O GLU A 199 −5.807 −1.883 12.963 1.00 24.39 140 N THR A 200 −6.114 −1.949 10.756 1.00 21.99 141 CA THR A 200 −4.719 −2.276 10.462 1.00 20.58 142 CB THR A 200 −4.624 −3.474 9.488 1.00 20.42 143 OG1 THR A 200 −5.031 −3.059 8.169 1.00 17.20 144 CG2 THR A 200 −5.515 −4.633 9.999 1.00 18.24 145 C THR A 200 −3.942 −1.086 9.872 1.00 19.62 146 O THR A 200 −2.761 −1.202 9.541 1.00 17.71 147 N PHE A 201 −4.614 0.045 9.704 1.00 20.00 148 CA PHE A 201 −3.958 1.220 9.161 1.00 21.05 149 CB PHE A 201 −3.941 1.160 7.648 1.00 22.20 150 CG PHE A 201 −2.984 2.112 7.024 1.00 21.15 151 CD1 PHE A 201 −3.430 3.109 6.187 1.00 23.24 152 CD2 PHE A 201 −1.613 1.964 7.228 1.00 24.07 153 CE1 PHE A 201 −2.532 3.946 5.546 1.00 21.82 154 CE2 PHE A 201 −0.703 2.792 6.593 1.00 23.53 155 CZ PHE A 201 −1.161 3.781 5.751 1.00 22.68 156 C PHE A 201 −4.619 2.521 9.560 1.00 21.47 157 O PHE A 201 −5.549 2.962 8.906 1.00 22.07 158 N PRO A 202 −4.089 3.193 10.586 1.00 23.56 159 CD PRO A 202 −3.018 2.664 11.445 1.00 24.92 160 CA PRO A 202 −4.580 4.468 11.116 1.00 23.81 161 CB PRO A 202 −3.570 4.784 12.206 1.00 23.88 162 CG PRO A 202 −3.216 3.465 12.713 1.00 25.50 163 C PRO A 202 −4.548 5.554 10.064 1.00 24.15 164 O PRO A 202 −3.584 5.647 9.294 1.00 23.02 165 N SER A 203 −5.588 6.381 10.028 1.00 25.14 166 CA SER A 203 −5.629 7.466 9.064 1.00 26.45 167 CB SER A 203 −7.057 7.981 8.836 1.00 26.50 168 OG SER A 203 −7.803 8.001 10.039 1.00 29.67 169 C SER A 203 −4.712 8.551 9.594 1.00 25.55 170 O SER A 203 −4.392 8.573 10.779 1.00 25.33 171 N LEU A 204 −4.238 9.405 8.698 1.00 26.68 172 CA LEU A 204 −3.326 10.483 9.056 1.00 28.37 173 CB LEU A 204 −3.110 11.361 7.828 1.00 27.72 174 CG LEU A 204 −1.948 12.342 7.757 1.00 27.81 175 CD1 LEU A 204 −0.725 11.797 8.433 1.00 26.92 176 CD2 LEU A 204 −1.676 12.614 6.300 1.00 27.54 177 C LEU A 204 −3.841 11.302 10.241 1.00 29.51 178 O LEU A 204 −3.105 11.590 11.187 1.00 30.16 179 N CYS A 205 −5.142 11.561 10.216 1.00 31.31 180 CA CYS A 205 −5.849 12.341 11.218 1.00 33.60 181 CB CYS A 205 −7.301 12.480 10.791 1.00 35.57 182 SG CYS A 205 −7.559 11.823 9.119 1.00 41.57 183 C CYS A 205 −5.798 11.776 12.625 1.00 33.68 184 O CYS A 205 −5.892 12.523 13.607 1.00 34.82 185 N GLN A 206 −5.690 10.459 12.730 1.00 33.19 186 CA GLN A 206 −5.642 9.804 14.030 1.00 32.16 187 CB GLN A 206 −6.136 8.359 13.887 1.00 33.06 188 CG GLN A 206 −5.908 7.486 15.107 1.00 32.99 189 CD GLN A 206 −6.222 6.034 14.849 1.00 34.01 190 OE1 GLN A 206 −6.813 5.686 13.821 1.00 33.58 191 NE2 GLN A 206 −5.827 5.168 15.782 1.00 34.48 192 C GLN A 206 −4.217 9.784 14.562 1.00 31.63 193 O GLN A 206 −3.975 9.430 15.719 1.00 32.61 194 N LEU A 207 −3.262 10.186 13.742 1.00 29.82 195 CA LEU A 207 −1.898 10.088 14.192 1.00 28.12 196 CB LEU A 207 −0.999 9.600 13.054 1.00 27.92 197 CG LEU A 207 −0.628 8.105 13.010 1.00 27.55 198 CD1 LEU A 207 −1.631 7.215 13.731 1.00 27.18 199 CD2 LEU A 207 −0.484 7.679 11.557 1.00 25.94 200 C LEU A 207 −1.281 11.251 14.921 1.00 26.93 201 O LEU A 207 −1.502 12.423 14.590 1.00 26.30 202 N GLY A 208 −0.609 10.893 16.010 1.00 25.66 203 CA GLY A 208 0.110 11.870 16.790 1.00 24.28 204 C GLY A 208 1.398 12.007 15.992 1.00 22.29 205 O GLY A 208 2.269 11.135 16.061 1.00 20.48 206 N LYS A 209 1.448 13.015 15.131 1.00 21.40 207 CA LYS A 209 2.605 13.238 14.296 1.00 21.36 208 CB LYS A 209 2.265 14.194 13.160 1.00 22.61 209 CG LYS A 209 1.457 13.511 12.069 1.00 25.95 210 CD LYS A 209 0.684 14.484 11.192 1.00 26.65 211 CE LYS A 209 1.552 15.151 10.148 1.00 27.62 212 NZ LYS A 209 0.683 15.849 9.151 1.00 27.27 213 C LYS A 209 3.783 13.742 15.076 1.00 20.75 214 O LYS A 209 3.620 14.478 16.042 1.00 22.12 215 N TYR A 210 4.955 13.210 14.747 1.00 20.02 216 CA TYR A 210 6.192 13.647 15.370 1.00 20.49 217 CB TYR A 210 6.534 12.837 16.629 1.00 18.47 218 CG TYR A 210 7.130 11.494 16.353 1.00 18.13 219 CD1 TYR A 210 8.496 11.358 16.171 1.00 15.36 220 CE1 TYR A 210 9.045 10.142 15.867 1.00 16.09 221 CD2 TYR A 210 6.325 10.369 16.229 1.00 16.18 222 CE2 TYR A 210 6.866 9.144 15.925 1.00 15.25 223 CZ TYR A 210 8.229 9.037 15.744 1.00 15.38 224 OH TYR A 210 8.797 7.822 15.453 1.00 16.80 225 C TYR A 210 7.263 13.591 14.283 1.00 19.53 226 O TYR A 210 7.099 12.927 13.266 1.00 19.97 227 N THR A 211 8.332 14.335 14.483 1.00 20.32 228 CA THR A 211 9.392 14.441 13.504 1.00 19.85 229 CB THR A 211 9.434 15.910 13.061 1.00 20.41 230 OG1 THR A 211 9.454 16.758 14.222 1.00 22.41 231 CG2 THR A 211 8.177 16.261 12.291 1.00 22.14 232 C THR A 211 10.781 13.998 13.982 1.00 20.02 233 O THR A 211 10.945 13.465 15.077 1.00 22.75 234 N THR A 212 11.774 14.147 13.117 1.00 20.00 235 CA THR A 212 13.150 13.829 13.447 1.00 19.89 236 CB THR A 212 13.567 12.417 12.996 1.00 20.40 237 OG1 THR A 212 14.895 12.157 13.451 1.00 19.09 238 CG2 THR A 212 13.562 12.268 11.467 1.00 18.30 239 C THR A 212 14.001 14.876 12.737 1.00 22.16 240 O THR A 212 13.544 15.506 11.771 1.00 20.36 241 N ASN A 213 15.201 15.139 13.261 1.00 24.37 242 CA ASN A 213 16.080 16.104 12.608 1.00 24.35 243 CB ASN A 213 16.749 17.125 13.577 1.00 24.35 244 CG ASN A 213 17.424 16.484 14.788 1.00 23.76 245 OD1 ASN A 213 17.681 15.305 14.810 1.00 24.80 246 ND2 ASN A 213 17.707 17.294 15.794 1.00 22.88 247 C ASN A 213 17.083 15.434 11.688 1.00 25.10 248 O ASN A 213 17.747 16.090 10.890 1.00 26.32 249 N SER A 214 17.114 14.106 11.704 1.00 24.69 250 CA SER A 214 18.037 13.377 10.832 1.00 25.17 251 CB SER A 214 17.831 11.882 10.948 1.00 25.27 252 OG SER A 214 18.257 11.442 12.211 1.00 25.70 253 C SER A 214 17.940 13.795 9.369 1.00 25.21 254 O SER A 214 16.844 13.925 8.821 1.00 24.04 255 N SER A 215 19.107 14.043 8.768 1.00 26.72 256 CA SER A 215 19.264 14.441 7.377 1.00 25.06 257 CB SER A 215 19.734 13.237 6.595 1.00 23.52 258 OG SER A 215 20.845 12.696 7.296 1.00 27.19 259 C SER A 215 18.040 15.082 6.756 1.00 24.94 260 O SER A 215 17.514 14.611 5.759 1.00 26.62 261 N ALA A 216 17.527 16.084 7.451 1.00 26.24 262 CA ALA A 216 16.395 16.875 7.004 1.00 27.32 263 CB ALA A 216 15.686 17.514 8.207 1.00 24.42 264 C ALA A 216 17.012 17.930 6.092 1.00 28.48 265 O ALA A 216 16.372 18.427 5.159 1.00 29.23 266 N ASP A 217 18.308 18.158 6.324 1.00 28.95 267 CA ASP A 217 19.169 19.109 5.620 1.00 30.21 268 CB ASP A 217 20.647 18.851 6.056 1.00 32.59 269 CG ASP A 217 21.619 20.009 5.694 1.00 33.99 270 OD1 ASP A 217 22.382 20.458 6.603 1.00 37.14 271 OD2 ASP A 217 21.678 20.452 4.519 1.00 33.28 272 C ASP A 217 19.046 18.975 4.096 1.00 28.62 273 O ASP A 217 18.423 19.813 3.430 1.00 27.65 274 N HIS A 218 19.684 17.936 3.555 1.00 27.53 275 CA HIS A 218 19.707 17.691 2.116 1.00 25.97 276 CB HIS A 218 20.895 18.410 1.486 1.00 28.45 277 CG HIS A 218 22.207 17.735 1.741 1.00 29.85 278 CD2 HIS A 218 23.107 17.186 0.889 1.00 31.13 279 ND1 HIS A 218 22.711 17.529 3.012 1.00 30.86 280 CE1 HIS A 218 23.860 16.886 2.931 1.00 31.67 281 NE2 HIS A 218 24.125 16.665 1.654 1.00 32.39 282 C HIS A 218 19.854 16.204 1.859 1.00 23.88 283 O HIS A 218 20.188 15.445 2.766 1.00 25.08 284 N ARG A 219 19.741 15.824 0.599 1.00 22.00 285 CA ARG A 219 19.825 14.435 0.198 1.00 22.41 286 CB ARG A 219 19.159 14.261 −1.166 1.00 22.50 287 CG ARG A 219 17.737 14.801 −1.236 1.00 22.91 288 CD ARG A 219 17.098 14.440 −2.571 1.00 22.98 289 NE ARG A 219 15.802 15.093 −2.756 1.00 22.05 290 CZ ARG A 219 14.916 14.760 −3.693 1.00 19.87 291 NH1 ARG A 219 15.158 13.768 −4.544 1.00 17.44 292 NH2 ARG A 219 13.787 15.440 −3.792 1.00 20.09 293 C ARG A 219 21.225 13.818 0.163 1.00 22.78 294 O ARG A 219 22.165 14.403 −0.377 1.00 22.77 295 N VAL A 220 21.352 12.643 0.766 1.00 22.75 296 CA VAL A 220 22.603 11.898 0.779 1.00 22.59 297 CB VAL A 220 23.189 11.750 2.201 1.00 22.90 298 CG1 VAL A 220 23.673 13.119 2.722 1.00 24.17 299 CG2 VAL A 220 22.166 11.134 3.164 1.00 20.45 300 C VAL A 220 22.235 10.539 0.212 1.00 24.31 301 O VAL A 220 21.043 10.247 0.048 1.00 26.77 302 N GLN A 221 23.222 9.718 −0.126 1.00 23.99 303 CA GLN A 221 22.932 8.402 −0.680 1.00 24.25 304 CB GLN A 221 24.230 7.620 −0.944 1.00 25.91 305 CG GLN A 221 24.002 6.223 −1.582 1.00 29.12 306 CD GLN A 221 25.250 5.300 −1.593 1.00 31.49 307 OE1 GLN A 221 26.142 5.465 −2.421 1.00 34.56 308 NE2 GLN A 221 25.276 4.299 −0.706 1.00 31.02 309 C GLN A 221 22.011 7.567 0.232 1.00 24.22 310 O GLN A 221 21.099 6.903 −0.254 1.00 25.20 311 N LEU A 222 22.242 7.614 1.544 1.00 23.14 312 CA LEU A 222 21.464 6.814 2.477 1.00 22.34 313 CB LEU A 222 21.858 5.351 2.255 1.00 20.04 314 CG LEU A 222 21.047 4.138 2.682 1.00 20.69 315 CD1 LEU A 222 21.290 3.727 4.100 1.00 20.10 316 CD2 LEU A 222 19.596 4.438 2.430 1.00 21.58 317 C LEU A 222 21.788 7.197 3.921 1.00 22.91 318 O LEU A 222 22.967 7.309 4.290 1.00 24.38 319 N ASP A 223 20.755 7.418 4.735 1.00 22.66 320 CA ASP A 223 20.938 7.726 6.162 1.00 21.34 321 CB ASP A 223 20.079 8.925 6.610 1.00 22.74 322 CG ASP A 223 20.221 9.238 8.126 1.00 25.18 323 OD1 ASP A 223 20.458 10.412 8.508 1.00 26.69 324 OD2 ASP A 223 20.059 8.320 8.955 1.00 26.37 325 C ASP A 223 20.531 6.443 6.889 1.00 20.74 326 O ASP A 223 19.359 6.054 6.915 1.00 18.76 327 N LEU A 224 21.518 5.782 7.463 1.00 20.18 328 CA LEU A 224 21.303 4.524 8.145 1.00 19.89 329 CB LEU A 224 22.632 3.915 8.529 1.00 21.07 330 CG LEU A 224 23.322 3.093 7.463 1.00 22.72 331 CD1 LEU A 224 24.607 2.566 8.072 1.00 20.82 332 CD2 LEU A 224 22.418 1.935 7.050 1.00 22.65 333 C LEU A 224 20.411 4.607 9.358 1.00 19.76 334 O LEU A 224 19.666 3.681 9.635 1.00 20.96 335 N GLY A 225 20.524 5.679 10.118 1.00 17.05 336 CA GLY A 225 19.673 5.807 11.268 1.00 17.01 337 C GLY A 225 18.243 5.835 10.775 1.00 17.46 338 O GLY A 225 17.377 5.228 11.381 1.00 16.42 339 N LEU A 226 18.025 6.481 9.628 1.00 18.64 340 CA LEU A 226 16.699 6.608 9.012 1.00 18.78 341 CB LEU A 226 16.707 7.762 8.003 1.00 18.63 342 CG LEU A 226 15.798 9.002 8.195 1.00 19.85 343 CD1 LEU A 226 15.605 9.392 9.643 1.00 16.64 344 CD2 LEU A 226 16.337 10.201 7.380 1.00 17.14 345 C LEU A 226 16.231 5.295 8.359 1.00 18.28 346 O LEU A 226 15.073 4.886 8.530 1.00 16.45 347 N TRP A 227 17.124 4.624 7.634 1.00 17.71 348 CA TRP A 227 16.776 3.352 7.015 1.00 18.68 349 CB TRP A 227 17.926 2.775 6.206 1.00 17.57 350 CG TRP A 227 17.835 1.262 6.070 1.00 16.59 351 CD2 TRP A 227 16.919 0.501 5.253 1.00 15.32 352 CE2 TRP A 227 17.228 −0.860 5.433 1.00 13.42 353 CE3 TRP A 227 15.866 0.838 4.392 1.00 17.17 354 CD1 TRP A 227 18.624 0.350 6.695 1.00 16.34 355 NE1 TRP A 227 18.270 −0.926 6.316 1.00 15.17 356 CZ2 TRP A 227 16.529 −1.882 4.786 1.00 13.09 357 CZ3 TRP A 227 15.168 −0.186 3.747 1.00 15.40 358 CH2 TRP A 227 15.505 −1.521 3.950 1.00 14.59 359 C TRP A 227 16.407 2.364 8.122 1.00 20.52 360 O TRP A 227 15.585 1.465 7.917 1.00 20.81 361 N ASP A 228 17.049 2.511 9.281 1.00 21.28 362 CA ASP A 228 16.772 1.649 10.418 1.00 21.73 363 CB ASP A 228 17.773 1.893 11.512 1.00 25.14 364 CG ASP A 228 18.798 0.815 11.570 1.00 28.26 365 OD1 ASP A 228 19.686 0.779 10.668 1.00 29.32 366 OD2 ASP A 228 18.682 −0.012 12.504 1.00 31.33 367 C ASP A 228 15.379 1.823 10.970 1.00 20.87 368 O ASP A 228 14.695 0.851 11.249 1.00 22.70 369 N LYS A 229 14.982 3.062 11.192 1.00 20.53 370 CA LYS A 229 13.640 3.354 11.691 1.00 19.84 371 CB LYS A 229 13.511 4.877 11.931 1.00 19.61 372 CG LYS A 229 12.162 5.331 12.479 1.00 23.06 373 CD LYS A 229 11.776 4.555 13.750 1.00 25.62 374 CE LYS A 229 10.401 4.940 14.260 1.00 25.11 375 NZ LYS A 229 9.907 3.921 15.249 1.00 28.39 376 C LYS A 229 12.643 2.889 10.614 1.00 18.28 377 O LYS A 229 11.662 2.210 10.902 1.00 17.81 378 N PHE A 230 13.016 3.159 9.362 1.00 19.38 379 CA PHE A 230 12.238 2.857 8.170 1.00 17.62 380 CB PHE A 230 12.937 3.454 6.939 1.00 16.93 381 CG PHE A 230 12.211 3.217 5.658 1.00 16.42 382 CD1 PHE A 230 11.020 3.878 5.388 1.00 17.12 383 CD2 PHE A 230 12.683 2.284 4.744 1.00 18.74 384 CE1 PHE A 230 10.296 3.611 4.226 1.00 18.18 385 CE2 PHE A 230 11.968 1.997 3.569 1.00 19.04 386 CZ PHE A 230 10.769 2.666 3.314 1.00 18.96 387 C PHE A 230 11.938 1.380 7.959 1.00 17.02 388 O PHE A 230 10.776 1.000 7.777 1.00 17.25 389 N SER A 231 12.971 0.551 7.992 1.00 17.74 390 CA SER A 231 12.810 −0.882 7.788 1.00 18.46 391 CB SER A 231 14.172 −1.563 7.651 1.00 18.00 392 OG SER A 231 15.005 −1.275 8.765 1.00 18.22 393 C SER A 231 12.005 −1.524 8.916 1.00 18.14 394 O SER A 231 11.374 −2.565 8.711 1.00 19.28 395 N GLU A 232 12.071 −0.931 10.109 1.00 18.65 396 CA GLU A 232 11.329 −1.420 11.277 1.00 18.42 397 CB GLU A 232 11.766 −0.685 12.541 1.00 21.44 398 CG GLU A 232 10.733 −0.690 13.698 1.00 24.22 399 CD GLU A 232 11.158 0.204 14.866 1.00 27.21 400 OE1 GLU A 232 12.314 0.072 15.327 1.00 27.98 401 OE2 GLU A 232 10.347 1.045 15.318 1.00 29.80 402 C GLU A 232 9.857 −1.149 11.035 1.00 16.09 403 O GLU A 232 9.031 −2.026 11.211 1.00 14.77 404 N LEU A 233 9.555 0.087 10.648 1.00 13.93 405 CA LEU A 233 8.191 0.514 10.349 1.00 13.81 406 CB LEU A 233 8.124 2.031 10.109 1.00 12.25 407 CG LEU A 233 8.385 2.956 11.314 1.00 12.32 408 CD1 LEU A 233 8.406 4.374 10.841 1.00 12.38 409 CD2 LEU A 233 7.341 2.789 12.399 1.00 13.65 410 C LEU A 233 7.646 −0.233 9.139 1.00 13.48 411 O LEU A 233 6.458 −0.523 9.073 1.00 15.95 412 N ALA A 234 8.503 −0.549 8.180 1.00 12.52 413 CA ALA A 234 8.049 −1.284 7.016 1.00 14.87 414 CB ALA A 234 9.112 −1.275 5.915 1.00 13.08 415 C ALA A 234 7.701 −2.729 7.459 1.00 16.06 416 O ALA A 234 6.619 −3.242 7.142 1.00 15.82 417 N THR A 235 8.578 −3.351 8.243 1.00 15.16 418 CA THR A 235 8.334 −4.707 8.738 1.00 15.64 419 CB THR A 235 9.540 −5.213 9.619 1.00 17.73 420 OG1 THR A 235 10.662 −5.493 8.774 1.00 17.62 421 CG2 THR A 235 9.198 −6.473 10.377 1.00 18.14 422 C THR A 235 7.015 −4.802 9.526 1.00 15.67 423 O THR A 235 6.244 −5.750 9.341 1.00 16.12 424 N LYS A 236 6.761 −3.838 10.400 1.00 14.40 425 CA LYS A 236 5.532 −3.854 11.179 1.00 15.93 426 CB LYS A 236 5.548 −2.778 12.264 1.00 16.01 427 CG LYS A 236 6.596 −2.951 13.334 1.00 21.21 428 CD LYS A 236 6.412 −1.894 14.419 1.00 23.81 429 CE LYS A 236 7.583 −1.851 15.394 1.00 24.68 430 NZ LYS A 236 7.749 −3.128 16.139 1.00 25.36 431 C LYS A 236 4.342 −3.633 10.260 1.00 14.33 432 O LYS A 236 3.231 −4.088 10.538 1.00 13.57 433 N CYS A 237 4.579 −2.938 9.156 1.00 14.60 434 CA CYS A 237 3.519 −2.681 8.217 1.00 16.39 435 CB CYS A 237 3.870 −1.561 7.234 1.00 14.97 436 SG CYS A 237 2.335 −0.904 6.483 1.00 17.49 437 C CYS A 237 3.158 −3.979 7.489 1.00 16.47 438 O CYS A 237 1.984 −4.327 7.360 1.00 17.24 439 N ILE A 238 4.170 −4.722 7.054 1.00 15.33 440 CA ILE A 238 3.934 −5.978 6.352 1.00 13.85 441 CB ILE A 238 5.264 −6.601 5.999 1.00 13.01 442 CG2 ILE A 238 5.073 −8.038 5.514 1.00 14.88 443 CG1 ILE A 238 5.978 −5.715 4.969 1.00 12.70 444 CD1 ILE A 238 7.405 −6.092 4.758 1.00 10.75 445 C ILE A 238 3.078 −6.930 7.195 1.00 14.22 446 O ILE A 238 2.208 −7.642 6.691 1.00 14.79 447 N ILE A 239 3.359 −6.966 8.482 1.00 14.17 448 CA ILE A 239 2.609 −7.794 9.414 1.00 14.19 449 CB ILE A 239 3.238 −7.724 10.827 1.00 14.59 450 CG2 ILE A 239 2.230 −8.068 11.870 1.00 15.96 451 CG1 ILE A 239 4.464 −8.635 10.917 1.00 13.80 452 CD1 ILE A 239 5.315 −8.368 12.155 1.00 13.34 453 C ILE A 239 1.168 −7.274 9.443 1.00 14.54 454 O ILE A 239 0.226 −8.057 9.452 1.00 14.16 455 N LYS A 240 0.988 −5.962 9.419 1.00 15.39 456 CA LYS A 240 −0.361 −5.415 9.427 1.00 15.53 457 CB LYS A 240 −0.350 −3.917 9.717 1.00 18.27 458 CG LYS A 240 −0.078 −3.589 11.170 1.00 21.05 459 CD LYS A 240 −1.336 −3.699 12.002 1.00 23.72 460 CE LYS A 240 −1.050 −4.179 13.432 1.00 27.33 461 NZ LYS A 240 −0.927 −5.697 13.537 1.00 30.09 462 C LYS A 240 −1.107 −5.702 8.131 1.00 15.65 463 O LYS A 240 −2.336 −5.785 8.139 1.00 13.48 464 N ILE A 241 −0.369 −5.867 7.031 1.00 14.37 465 CA ILE A 241 −0.977 −6.171 5.739 1.00 15.71 466 CB ILE A 241 −0.012 −5.897 4.560 1.00 15.46 467 CG2 ILE A 241 −0.540 −6.514 3.275 1.00 17.68 468 CG1 ILE A 241 0.111 −4.389 4.349 1.00 16.06 469 CD1 ILE A 241 1.192 −3.933 3.377 1.00 17.03 470 C ILE A 241 −1.450 −7.630 5.746 1.00 16.21 471 O ILE A 241 −2.542 −7.950 5.259 1.00 15.85 472 N VAL A 242 −0.631 −8.505 6.332 1.00 17.19 473 CA VAL A 242 −0.964 −9.923 6.455 1.00 16.87 474 CB VAL A 242 0.180 −10.726 7.071 1.00 15.52 475 CG1 VAL A 242 −0.310 −12.078 7.478 1.00 15.69 476 CG2 VAL A 242 1.319 −10.848 6.068 1.00 16.20 477 C VAL A 242 −2.213 −10.049 7.316 1.00 16.56 478 O VAL A 242 −3.130 −10.786 6.968 1.00 16.69 479 N GLU A 243 −2.269 −9.291 8.407 1.00 16.45 480 CA GLU A 243 −3.451 −9.301 9.271 1.00 19.31 481 CB GLU A 243 −3.273 −8.371 10.468 1.00 22.56 482 CG GLU A 243 −4.521 −8.364 11.304 1.00 27.44 483 CD GLU A 243 −4.599 −7.233 12.284 1.00 31.18 484 OE1 GLU A 243 −3.565 −6.948 12.933 1.00 33.07 485 OE2 GLU A 243 −5.711 −6.649 12.418 1.00 33.67 486 C GLU A 243 −4.697 −8.839 8.500 1.00 17.64 487 O GLU A 243 −5.775 −9.350 8.703 1.00 14.49 488 N PHE A 244 −4.527 −7.799 7.686 1.00 18.29 489 CA PHE A 244 −5.586 −7.235 6.845 1.00 16.37 490 CB PHE A 244 −5.061 −6.002 6.093 1.00 17.51 491 CG PHE A 244 −5.971 −5.497 4.998 1.00 14.72 492 CD1 PHE A 244 −5.638 −5.690 3.666 1.00 15.96 493 CD2 PHE A 244 −7.121 −4.800 5.298 1.00 15.04 494 CE1 PHE A 244 −6.439 −5.191 2.643 1.00 16.27 495 CE2 PHE A 244 −7.934 −4.295 4.281 1.00 16.72 496 CZ PHE A 244 −7.595 −4.489 2.954 1.00 14.78 497 C PHE A 244 −6.062 −8.294 5.853 1.00 15.24 498 O PHE A 244 −7.264 −8.505 5.718 1.00 15.07 499 N ALA A 245 −5.118 −8.972 5.195 1.00 14.79 500 CA ALA A 245 −5.437 −10.034 4.226 1.00 14.77 501 CB ALA A 245 −4.147 −10.593 3.592 1.00 14.54 502 C ALA A 245 −6.216 −11.157 4.895 1.00 13.91 503 O ALA A 245 −7.220 −11.586 4.386 1.00 13.71 504 N LYS A 246 −5.762 −11.596 6.063 1.00 14.98 505 CA LYS A 246 −6.421 −12.668 6.808 1.00 16.59 506 CB LYS A 246 −5.658 −12.963 8.100 1.00 17.81 507 CG LYS A 246 −4.274 −13.575 7.925 1.00 20.05 508 CD LYS A 246 −4.351 −14.931 7.282 1.00 21.82 509 CE LYS A 246 −3.225 −15.824 7.778 1.00 23.30 510 NZ LYS A 246 −3.422 −17.231 7.280 1.00 26.39 511 C LYS A 246 −7.867 −12.341 7.184 1.00 17.03 512 O LYS A 246 −8.634 −13.238 7.522 1.00 16.72 513 N ARG A 247 −8.209 −11.054 7.186 1.00 17.90 514 CA ARG A 247 −9.548 −10.599 7.533 1.00 18.60 515 CB ARG A 247 −9.443 −9.373 8.421 1.00 20.73 516 CG ARG A 247 −8.784 −9.712 9.734 1.00 22.93 517 CD ARG A 247 −8.272 −8.510 10.443 1.00 24.91 518 NE ARG A 247 −9.324 −7.528 10.618 1.00 28.82 519 CZ ARG A 247 −9.510 −6.802 11.714 1.00 29.63 520 NH1 ARG A 247 −8.726 −6.940 12.772 1.00 28.78 521 NH2 ARG A 247 −10.442 −5.869 11.711 1.00 30.29 522 C ARG A 247 −10.488 −10.356 6.347 1.00 18.81 523 O ARG A 247 −11.680 −10.086 6.543 1.00 20.35 524 N LEU A 248 −9.973 −10.510 5.128 1.00 18.00 525 CA LEU A 248 −10.775 −10.339 3.931 1.00 17.53 526 CB LEU A 248 −9.896 −10.045 2.706 1.00 17.06 527 CG LEU A 248 −9.054 −8.760 2.591 1.00 15.80 528 CD1 LEU A 248 −8.275 −8.778 1.266 1.00 12.46 529 CD2 LEU A 248 −9.927 −7.506 2.710 1.00 14.81 530 C LEU A 248 −11.534 −11.646 3.713 1.00 18.26 531 O LEU A 248 −10.965 −12.729 3.824 1.00 17.01 532 N PRO A 249 −12.843 −11.567 3.419 1.00 18.73 533 CD PRO A 249 −13.719 −10.384 3.470 1.00 19.57 534 CA PRO A 249 −13.633 −12.779 3.200 1.00 19.22 535 CB PRO A 249 −14.977 −12.222 2.744 1.00 19.79 536 CG PRO A 249 −15.099 −11.016 3.621 1.00 20.52 537 C PRO A 249 −13.053 −13.756 2.197 1.00 19.27 538 O PRO A 249 −12.726 −13.387 1.075 1.00 20.55 539 N GLY A 250 −12.903 −15.004 2.641 1.00 20.87 540 CA GLY A 250 −12.401 −16.083 1.801 1.00 19.86 541 C GLY A 250 −10.907 −16.209 1.590 1.00 20.13 542 O GLY A 250 −10.454 −17.215 1.044 1.00 21.37 543 N PHE A 251 −10.130 −15.231 2.048 1.00 19.34 544 CA PHE A 251 −8.672 −15.257 1.861 1.00 19.32 545 CB PHE A 251 −8.036 −14.001 2.499 1.00 18.12 546 CG PHE A 251 −6.559 −13.903 2.297 1.00 17.10 547 CD1 PHE A 251 −6.043 −13.423 1.094 1.00 17.68 548 CD2 PHE A 251 −5.682 −14.368 3.277 1.00 15.40 549 CE1 PHE A 251 −4.664 −13.414 0.859 1.00 16.47 550 CE2 PHE A 251 −4.324 −14.365 3.060 1.00 16.00 551 CZ PHE A 251 −3.804 −13.891 1.850 1.00 17.36 552 C PHE A 251 −8.157 −16.518 2.535 1.00 18.63 553 O PHE A 251 −7.576 −17.418 1.921 1.00 18.89 554 N THR A 252 −8.505 −16.604 3.798 1.00 18.51 555 CA THR A 252 −8.145 −17.691 4.655 1.00 19.35 556 CB THR A 252 −8.678 −17.342 6.033 1.00 20.77 557 OG1 THR A 252 −7.644 −16.680 6.767 1.00 23.36 558 CG2 THR A 252 −9.212 −18.514 6.774 1.00 23.22 559 C THR A 252 −8.634 −19.033 4.132 1.00 19.84 560 O THR A 252 −8.220 −20.077 4.625 1.00 20.58 561 N GLY A 253 −9.451 −19.000 3.082 1.00 21.05 562 CA GLY A 253 −9.980 −20.224 2.500 1.00 20.89 563 C GLY A 253 −9.123 −20.789 1.383 1.00 21.46 564 O GLY A 253 −9.376 −21.899 0.890 1.00 21.33 565 N LEU A 254 −8.135 −20.011 0.948 1.00 20.37 566 CA LEU A 254 −7.219 −20.429 −0.116 1.00 18.42 567 CB LEU A 254 −6.552 −19.180 −0.708 1.00 20.47 568 CG LEU A 254 −7.335 −18.347 −1.725 1.00 22.68 569 CD1 LEU A 254 −8.777 −18.338 −1.352 1.00 23.04 570 CD2 LEU A 254 −6.780 −16.929 −1.848 1.00 22.37 571 C LEU A 254 −6.156 −21.355 0.502 1.00 17.86 572 O LEU A 254 −6.072 −21.459 1.724 1.00 16.98 573 N SER A 255 −5.357 −22.043 −0.300 1.00 15.32 574 CA SER A 255 −4.340 −22.876 0.308 1.00 16.43 575 CB SER A 255 −3.810 −23.881 −0.676 1.00 16.76 576 OG SER A 255 −3.416 −23.202 −1.825 1.00 17.59 577 C SER A 255 −3.199 −21.973 0.775 1.00 16.89 578 O SER A 255 −2.991 −20.862 0.234 1.00 15.37 579 N ILE A 256 −2.452 −22.465 1.760 1.00 16.17 580 CA ILE A 256 −1.344 −21.714 2.333 1.00 18.47 581 CB ILE A 256 −0.580 −22.511 3.457 1.00 17.13 582 CG2 ILE A 256 0.288 −23.648 2.868 1.00 18.77 583 CG1 ILE A 256 0.333 −21.575 4.219 1.00 16.65 584 CD1 ILE A 256 −0.402 −20.528 4.973 1.00 19.69 585 C ILE A 256 −0.406 −21.258 1.228 1.00 18.89 586 O ILE A 256 0.061 −20.115 1.243 1.00 19.36 587 N ALA A 257 −0.169 −22.122 0.244 1.00 18.48 588 CA ALA A 257 0.698 −21.762 −0.874 1.00 18.14 589 CB ALA A 257 0.736 −22.868 −1.916 1.00 15.57 590 C ALA A 257 0.174 −20.487 −1.504 1.00 18.90 591 O ALA A 257 0.892 −19.506 −1.633 1.00 20.07 592 N ASP A 258 −1.109 −20.486 −1.827 1.00 19.03 593 CA ASP A 258 −1.721 −19.346 −2.483 1.00 18.65 594 CB ASP A 258 −3.141 −19.680 −2.955 1.00 20.22 595 CG ASP A 258 −3.160 −20.499 −4.235 1.00 21.11 596 OD1 ASP A 258 −4.277 −20.872 −4.651 1.00 23.18 597 OD2 ASP A 258 −2.089 −20.766 −4.825 1.00 19.47 598 C ASP A 258 −1.731 −18.081 −1.645 1.00 17.57 599 O ASP A 258 −1.435 −17.016 −2.162 1.00 16.61 600 N GLN A 259 −2.078 −18.195 −0.367 1.00 16.44 601 CA GLN A 259 −2.121 −17.036 0.510 1.00 14.15 602 CB GLN A 259 −2.477 −17.468 1.931 1.00 15.92 603 CG GLN A 259 −3.879 −18.041 2.083 1.00 15.51 604 CD GLN A 259 −4.215 −18.391 3.511 1.00 16.36 605 OE1 GLN A 259 −3.718 −17.788 4.433 1.00 19.80 606 NE2 GLN A 259 −5.080 −19.358 3.694 1.00 16.26 607 C GLN A 259 −0.768 −16.325 0.487 1.00 14.18 608 O GLN A 259 −0.714 −15.098 0.373 1.00 14.26 609 N ILE A 260 0.314 −17.107 0.523 1.00 13.39 610 CA ILE A 260 1.675 −16.582 0.509 1.00 13.11 611 CB ILE A 260 2.709 −17.657 0.974 1.00 11.65 612 CG2 ILE A 260 4.122 −17.178 0.719 1.00 12.53 613 CG1 ILE A 260 2.557 −17.892 2.498 1.00 13.30 614 CD1 ILE A 260 3.082 −19.222 3.021 1.00 12.78 615 C ILE A 260 2.007 −15.992 −0.860 1.00 14.57 616 O ILE A 260 2.548 −14.905 −0.944 1.00 14.92 617 N THR A 261 1.614 −16.676 −1.927 1.00 14.56 618 CA THR A 261 1.845 −16.192 −3.279 1.00 15.06 619 CB THR A 261 1.243 −17.157 −4.306 1.00 14.24 620 OG1 THR A 261 1.938 −18.405 −4.240 1.00 16.34 621 CG2 THR A 261 1.330 −16.592 −5.715 1.00 15.63 622 C THR A 261 1.206 −14.809 −3.436 1.00 15.18 623 O THR A 261 1.865 −13.862 −3.848 1.00 16.32 624 N LEU A 262 −0.065 −14.679 −3.085 1.00 14.08 625 CA LEU A 262 −0.737 −13.383 −3.196 1.00 14.50 626 CB LEU A 262 −2.218 −13.491 −2.823 1.00 12.30 627 CG LEU A 262 −3.094 −14.247 −3.828 1.00 12.27 628 CD1 LEU A 262 −4.510 −14.299 −3.279 1.00 11.50 629 CD2 LEU A 262 −3.043 −13.549 −5.170 1.00 11.07 630 C LEU A 262 −0.095 −12.305 −2.333 1.00 13.40 631 O LEU A 262 0.019 −11.144 −2.759 1.00 12.89 632 N LEU A 263 0.270 −12.672 −1.113 1.00 11.86 633 CA LEU A 263 0.876 −11.726 −0.200 1.00 13.48 634 CB LEU A 263 1.063 −12.358 1.174 1.00 13.89 635 CG LEU A 263 −0.173 −12.363 2.061 1.00 14.62 636 CD1 LEU A 263 0.037 −13.259 3.256 1.00 12.39 637 CD2 LEU A 263 −0.477 −10.934 2.485 1.00 15.87 638 C LEU A 263 2.206 −11.248 −0.746 1.00 14.62 639 O LEU A 263 2.486 −10.053 −0.771 1.00 16.35 640 N LYS A 264 3.026 −12.168 −1.225 1.00 15.83 641 CA LYS A 264 4.323 −11.781 −1.779 1.00 16.21 642 CB LYS A 264 5.134 −13.027 −2.165 1.00 16.46 643 CG LYS A 264 5.888 −13.666 −0.985 1.00 16.55 644 CD LYS A 264 6.279 −15.099 −1.248 1.00 15.86 645 CE LYS A 264 7.210 −15.570 −0.144 1.00 17.98 646 NZ LYS A 264 8.553 −14.962 −0.342 1.00 16.92 647 C LYS A 264 4.180 −10.871 −2.994 1.00 15.33 648 O LYS A 264 4.859 −9.867 −3.106 1.00 15.30 649 N ALA A 265 3.274 −11.232 −3.889 1.00 14.92 650 CA ALA A 265 3.049 −10.486 −5.115 1.00 16.32 651 CB ALA A 265 2.241 −11.340 −6.070 1.00 14.20 652 C ALA A 265 2.418 −9.092 −4.995 1.00 16.04 653 O ALA A 265 2.645 −8.236 −5.850 1.00 16.12 654 N ALA A 266 1.644 −8.851 −3.942 1.00 15.90 655 CA ALA A 266 0.962 −7.557 −3.766 1.00 17.39 656 CB ALA A 266 −0.552 −7.781 −3.669 1.00 16.38 657 C ALA A 266 1.425 −6.713 −2.577 1.00 17.22 658 O ALA A 266 1.041 −5.543 −2.449 1.00 16.41 659 N CYS A 267 2.253 −7.298 −1.717 1.00 15.91 660 CA CYS A 267 2.710 −6.602 −0.527 1.00 17.69 661 CB CYS A 267 3.633 −7.493 0.281 1.00 18.90 662 SG CYS A 267 3.833 −6.875 1.915 1.00 23.66 663 C CYS A 267 3.355 −5.227 −0.756 1.00 16.15 664 O CYS A 267 2.985 −4.259 −0.083 1.00 14.43 665 N LEU A 268 4.279 −5.140 −1.715 1.00 14.38 666 CA LEU A 268 4.923 −3.873 −2.018 1.00 15.09 667 CB LEU A 268 6.069 −4.048 −3.020 1.00 14.82 668 CG LEU A 268 7.445 −3.400 −2.709 1.00 16.13 669 CD1 LEU A 268 8.323 −3.377 −3.999 1.00 13.28 670 CD2 LEU A 268 7.287 −1.984 −2.136 1.00 13.62 671 C LEU A 268 3.896 −2.895 −2.571 1.00 15.22 672 O LEU A 268 3.899 −1.722 −2.184 1.00 15.41 673 N ASP A 269 3.033 −3.358 −3.479 1.00 14.39 674 CA ASP A 269 2.001 −2.494 −4.043 1.00 14.73 675 CB ASP A 269 0.964 −3.300 −4.829 1.00 16.26 676 CG ASP A 269 1.514 −3.916 −6.104 1.00 16.52 677 OD1 ASP A 269 0.723 −4.379 −6.947 1.00 19.84 678 OD2 ASP A 269 2.721 −3.959 −6.281 1.00 18.78 679 C ASP A 269 1.268 −1.800 −2.901 1.00 16.42 680 O ASP A 269 1.246 −0.559 −2.817 1.00 17.01 681 N ILE A 270 0.714 −2.602 −1.985 1.00 16.86 682 CA ILE A 270 −0.061 −2.066 −0.854 1.00 16.75 683 CB ILE A 270 −0.784 −3.187 −0.067 1.00 16.55 684 CG2 ILE A 270 −1.645 −2.599 1.061 1.00 16.85 685 CG1 ILE A 270 −1.695 −3.974 −1.006 1.00 15.45 686 CD1 ILE A 270 −2.408 −5.102 −0.308 1.00 18.34 687 C ILE A 270 0.752 −1.176 0.093 1.00 15.88 688 O ILE A 270 0.245 −0.172 0.581 1.00 16.48 689 N LEU A 271 2.003 −1.529 0.346 1.00 15.65 690 CA LEU A 271 2.860 −0.723 1.207 1.00 16.49 691 CB LEU A 271 4.223 −1.405 1.302 1.00 16.24 692 CG LEU A 271 4.857 −1.820 2.632 1.00 17.43 693 CD1 LEU A 271 3.865 −2.078 3.723 1.00 14.58 694 CD2 LEU A 271 5.743 −3.017 2.389 1.00 16.24 695 C LEU A 271 2.967 0.661 0.538 1.00 16.41 696 O LEU A 271 2.871 1.690 1.210 1.00 17.42 697 N MET A 272 3.073 0.679 −0.795 1.00 16.60 698 CA MET A 272 3.172 1.927 −1.559 1.00 16.79 699 CB MET A 272 3.575 1.666 −3.020 1.00 17.65 700 CG MET A 272 4.996 1.199 −3.221 1.00 18.79 701 SD MET A 272 6.223 2.515 −3.063 1.00 22.97 702 CE MET A 272 7.580 1.837 −4.003 1.00 19.64 703 C MET A 272 1.846 2.702 −1.524 1.00 17.44 704 O MET A 272 1.824 3.940 −1.380 1.00 19.90 705 N LEU A 273 0.733 2.007 −1.683 1.00 14.90 706 CA LEU A 273 −0.530 2.703 −1.632 1.00 14.87 707 CB LEU A 273 −1.661 1.728 −1.888 1.00 15.48 708 CG LEU A 273 −3.038 2.357 −1.833 1.00 16.54 709 CD1 LEU A 273 −3.136 3.412 −2.933 1.00 17.29 710 CD2 LEU A 273 −4.084 1.266 −2.023 1.00 15.37 711 C LEU A 273 −0.688 3.333 −0.249 1.00 15.34 712 O LEU A 273 −1.083 4.493 −0.131 1.00 15.36 713 N ARG A 274 −0.330 2.573 0.789 1.00 15.34 714 CA ARG A 274 −0.442 3.028 2.164 1.00 15.78 715 CB ARG A 274 −0.097 1.919 3.150 1.00 16.75 716 CG ARG A 274 −1.222 0.873 3.234 1.00 17.30 717 CD ARG A 274 −1.044 −0.105 4.365 1.00 17.86 718 NE ARG A 274 −2.252 −0.918 4.516 1.00 21.93 719 CZ ARG A 274 −2.520 −1.701 5.561 1.00 22.23 720 NH1 ARG A 274 −1.663 −1.788 6.576 1.00 21.99 721 NH2 ARG A 274 −3.657 −2.384 5.597 1.00 20.01 722 C ARG A 274 0.321 4.301 2.459 1.00 17.06 723 O ARG A 274 −0.306 5.279 2.816 1.00 18.66 724 N ILE A 275 1.645 4.349 2.279 1.00 18.51 725 CA ILE A 275 2.328 5.618 2.564 1.00 18.34 726 GB ILE A 275 3.847 5.555 2.521 1.00 18.08 727 CG2 ILE A 275 4.420 5.601 3.927 1.00 19.84 728 CG1 ILE A 275 4.321 4.447 1.600 1.00 18.48 729 CD1 ILE A 275 4.510 4.949 0.201 1.00 17.63 730 C ILE A 275 1.878 6.778 1.680 1.00 18.77 731 O ILE A 275 1.843 7.911 2.154 1.00 18.87 732 N CYS A 276 1.522 6.504 0.419 1.00 17.07 733 CA CYS A 276 1.058 7.554 −0.488 1.00 16.63 734 CB CYS A 276 0.985 7.062 −1.931 1.00 15.81 735 SG CYS A 276 2.610 6.888 −2.627 1.00 22.23 736 C CYS A 276 −0.279 8.164 −0.058 1.00 15.45 737 O CYS A 276 −0.587 9.272 −0.468 1.00 15.53 738 N THR A 277 −1.064 7.449 0.746 1.00 13.95 739 CA THR A 277 −2.321 7.993 1.249 1.00 15.92 740 CB THR A 277 −3.363 6.887 1.545 1.00 18.17 741 OG1 THR A 277 −2.890 6.051 2.601 1.00 20.50 742 CG2 THR A 277 −3.591 6.023 0.314 1.00 19.00 743 C THR A 277 −2.054 8.816 2.520 1.00 17.31 744 O THR A 277 −2.917 9.560 2.984 1.00 19.20 745 N ARG A 278 −0.842 8.691 3.060 1.00 17.51 746 CA ARG A 278 −0.386 9.411 4.266 1.00 17.48 747 CB ARG A 278 0.459 8.455 5.101 1.00 17.18 748 CG ARG A 278 −0.336 7.370 5.783 1.00 16.64 749 CD ARG A 278 −0.683 7.825 7.175 1.00 17.73 750 NE ARG A 278 −1.172 6.755 8.034 1.00 17.21 751 CZ ARG A 278 −0.487 5.667 8.346 1.00 19.13 752 NH1 ARG A 278 0.733 5.484 7.861 1.00 20.62 753 NH2 ARG A 278 −1.017 4.773 9.171 1.00 20.16 754 C ARG A 278 0.459 10.667 3.891 1.00 16.92 755 O ARG A 278 1.327 11.130 4.637 1.00 16.64 756 N TYR A 279 0.173 11.226 2.727 1.00 17.14 757 CA TYR A 279 0.910 12.362 2.248 1.00 15.32 758 CB TYR A 279 1.208 12.142 0.784 1.00 14.96 759 CG TYR A 279 1.709 13.344 0.060 1.00 15.39 760 CD1 TYR A 279 2.998 13.831 0.265 1.00 15.10 761 CE1 TYR A 279 3.451 14.915 −0.457 1.00 15.87 762 CD2 TYR A 279 0.898 13.977 −0.875 1.00 16.01 763 CE2 TYR A 279 1.341 15.050 −1.591 1.00 18.57 764 CZ TYR A 279 2.607 15.513 −1.388 1.00 17.47 765 OH TYR A 279 3.019 16.564 −2.161 1.00 20.53 766 C TYR A 279 0.192 13.667 2.493 1.00 15.96 767 O TYR A 279 −1.030 13.751 2.351 1.00 15.17 768 N THR A 280 0.965 14.663 2.935 1.00 17.68 769 CA THR A 280 0.468 16.014 3.218 1.00 18.60 770 CB THR A 280 0.888 16.507 4.600 1.00 18.35 771 OG1 THR A 280 0.494 15.553 5.593 1.00 19.23 772 CG2 THR A 280 0.196 17.793 4.905 1.00 19.36 773 C THR A 280 1.085 16.927 2.195 1.00 18.63 774 O THR A 280 2.275 17.213 2.256 1.00 19.24 775 N PRO A 281 0.286 17.392 1.233 1.00 19.26 776 CD PRO A 281 −1.165 17.253 1.086 1.00 19.67 777 CA PRO A 281 0.791 18.273 0.201 1.00 23.13 778 CB PRO A 281 −0.469 18.600 −0.606 1.00 21.19 779 CG PRO A 281 −1.326 17.477 −0.375 1.00 19.03 780 C PRO A 281 1.395 19.528 0.825 1.00 27.05 781 O PRO A 281 2.521 19.877 0.507 1.00 29.83 782 N GLU A 282 0.678 20.154 1.765 1.00 29.52 783 CA GLU A 282 1.132 21.389 2.435 1.00 30.92 784 CB GLU A 282 0.188 21.733 3.623 1.00 34.18 785 CG GLU A 282 −0.569 23.095 3.507 1.00 37.63 786 CD GLU A 282 0.121 24.277 4.231 1.00 39.35 787 OE1 GLU A 282 1.126 24.839 3.717 1.00 39.81 788 OE2 GLU A 282 −0.365 24.656 5.320 1.00 40.91 789 C GLU A 282 2.602 21.384 2.907 1.00 29.16 790 O GLU A 282 3.380 22.301 2.610 1.00 29.44 791 N GLN A 283 2.967 20.336 3.629 1.00 26.73 792 CA GLN A 283 4.298 20.181 4.168 1.00 25.15 793 CB GLN A 283 4.178 19.501 5.509 1.00 25.77 794 CG GLN A 283 3.161 20.158 6.363 1.00 26.99 795 CD GLN A 283 3.640 21.516 6.757 1.00 29.54 796 OE1 GLN A 283 4.836 21.714 7.016 1.00 30.71 797 NE2 GLN A 283 2.728 22.477 6.793 1.00 31.58 798 C GLN A 283 5.197 19.326 3.301 1.00 25.04 799 O GLN A 283 6.388 19.230 3.583 1.00 25.52 800 N ASP A 284 4.625 18.687 2.276 1.00 23.29 801 CA ASP A 284 5.365 17.786 1.399 1.00 20.93 802 CB ASP A 284 6.450 18.520 0.622 1.00 21.51 803 CG ASP A 284 6.930 17.737 −0.581 1.00 20.88 804 OD1 ASP A 284 6.080 17.221 −1.352 1.00 18.48 805 OD2 ASP A 284 8.162 17.677 −0.770 1.00 20.71 806 C ASP A 284 5.995 16.686 2.253 1.00 19.57 807 O ASP A 284 7.209 16.437 2.189 1.00 17.45 808 N THR A 285 5.154 16.058 3.073 1.00 19.17 809 CA THR A 285 5.578 14.983 3.955 1.00 18.19 810 CB THR A 285 5.501 15.404 5.451 1.00 18.36 811 OG1 THR A 285 4.152 15.773 5.781 1.00 17.95 812 CG2 THR A 285 6.471 16.543 5.763 1.00 16.08 813 C THR A 285 4.699 13.742 3.817 1.00 17.40 814 O THR A 285 3.649 13.779 3.173 1.00 16.90 815 N MET A 286 5.163 12.654 4.429 1.00 17.39 816 CA MET A 286 4.462 11.375 4.498 1.00 17.47 817 CB MET A 286 5.031 10.337 3.509 1.00 16.08 818 CG MET A 286 4.692 10.646 2.053 1.00 15.31 819 SD MET A 286 5.340 9.441 0.905 1.00 21.84 820 CE MET A 286 4.558 9.994 −0.514 1.00 13.72 821 C MET A 286 4.609 10.893 5.951 1.00 17.11 822 O MET A 286 5.672 11.040 6.579 1.00 16.22 823 N THR A 287 3.515 10.377 6.496 1.00 15.98 824 CA THR A 287 3.472 9.905 7.872 1.00 15.63 825 CB THR A 287 2.345 10.639 8.617 1.00 14.95 826 OG1 THR A 287 2.591 12.039 8.503 1.00 16.07 827 CG2 THR A 287 2.291 10.260 10.098 1.00 14.81 828 C THR A 287 3.272 8.387 7.937 1.00 15.17 829 O THR A 287 2.454 7.825 7.221 1.00 14.62 830 N PHE A 288 4.105 7.732 8.737 1.00 15.64 831 CA PHE A 288 4.060 6.292 8.927 1.00 16.95 832 CB PHE A 288 5.463 5.770 9.263 1.00 16.87 833 CG PHE A 288 6.443 5.919 8.134 1.00 16.91 834 CD1 PHE A 288 6.982 7.164 7.818 1.00 18.03 835 CD2 PHE A 288 6.782 4.831 7.345 1.00 15.86 836 CE1 PHE A 288 7.827 7.309 6.733 1.00 15.63 837 CE2 PHE A 288 7.629 4.977 6.265 1.00 13.84 838 CZ PHE A 288 8.148 6.206 5.958 1.00 13.79 839 C PHE A 288 3.076 6.021 10.060 1.00 18.22 840 O PHE A 288 2.613 6.965 10.705 1.00 17.92 841 N SER A 289 2.796 4.750 10.345 1.00 18.84 842 CA SER A 289 1.825 4.374 11.369 1.00 18.84 843 CB SER A 289 1.475 2.918 11.235 1.00 18.32 844 OG SER A 289 0.975 2.710 9.939 1.00 20.62 845 C SER A 289 2.088 4.698 12.821 1.00 19.48 846 O SER A 289 1.194 4.553 13.642 1.00 21.03 847 N ASP A 290 3.308 5.090 13.167 1.00 18.56 848 CA ASP A 290 3.569 5.461 14.543 1.00 16.64 849 CB ASP A 290 4.910 4.879 15.021 1.00 19.14 850 CG ASP A 290 6.116 5.604 14.462 1.00 17.90 851 OD1 ASP A 290 6.064 6.131 13.343 1.00 19.78 852 OD2 ASP A 290 7.133 5.622 15.159 1.00 17.99 853 C ASP A 290 3.487 7.005 14.710 1.00 16.67 854 O ASP A 290 3.504 7.532 15.829 1.00 16.11 855 N GLY A 291 3.308 7.707 13.596 1.00 14.39 856 CA GLY A 291 3.227 9.155 13.627 1.00 14.41 857 C GLY A 291 4.476 9.773 13.034 1.00 15.52 858 O GLY A 291 4.473 10.956 12.721 1.00 16.88 859 N LEU A 292 5.544 8.993 12.869 1.00 13.32 860 CA LEU A 292 6.759 9.534 12.290 1.00 14.58 861 CB LEU A 292 7.840 8.447 12.123 1.00 14.51 862 CG LEU A 292 9.165 8.928 11.494 1.00 14.16 863 CD1 LEU A 292 9.777 10.015 12.337 1.00 12.49 864 CD2 LEU A 292 10.138 7.778 11.272 1.00 10.42 865 C LEU A 292 6.436 10.177 10.943 1.00 13.88 866 O LEU A 292 5.942 9.522 10.060 1.00 15.24 867 N THR A 293 6.676 11.479 10.837 1.00 14.29 868 CA THR A 293 6.427 12.275 9.644 1.00 14.37 869 CB THR A 293 5.621 13.504 10.053 1.00 16.10 870 OG1 THR A 293 4.435 13.056 10.720 1.00 16.90 871 CG2 THR A 293 5.259 14.356 8.851 1.00 14.68 872 C THR A 293 7.759 12.736 9.062 1.00 14.38 873 O THR A 293 8.475 13.494 9.697 1.00 14.25 874 N LEU A 294 8.108 12.271 7.871 1.00 14.86 875 CA LEU A 294 9.369 12.656 7.246 1.00 15.36 876 CB LEU A 294 10.135 11.418 6.803 1.00 11.39 877 CG LEU A 294 10.406 10.358 7.871 1.00 14.10 878 CD1 LEU A 294 11.173 9.176 7.269 1.00 12.89 879 CD2 LEU A 294 11.209 10.954 9.008 1.00 10.35 880 C LEU A 294 9.121 13.518 6.027 1.00 16.14 881 O LEU A 294 8.156 13.308 5.307 1.00 17.38 882 N ASN A 295 9.955 14.521 5.803 1.00 17.13 883 CA ASN A 295 9.781 15.340 4.604 1.00 17.00 884 CB ASN A 295 10.402 16.732 4.756 1.00 18.00 885 CG ASN A 295 11.907 16.705 4.955 1.00 18.40 886 OD1 ASN A 295 12.585 15.744 4.622 1.00 19.72 887 ND2 ASN A 295 12.435 17.787 5.494 1.00 21.69 888 C ASN A 295 10.362 14.588 3.412 1.00 15.70 889 O ASN A 295 10.872 13.477 3.573 1.00 16.12 890 N ARG A 296 10.265 15.163 2.217 1.00 15.71 891 CA ARG A 296 10.763 14.512 0.996 1.00 13.87 892 CB ARG A 296 10.486 15.382 −0.211 1.00 14.02 893 CG ARG A 296 10.843 14.721 −1.480 1.00 12.59 894 CD ARG A 296 10.551 15.621 −2.635 1.00 14.33 895 NE ARG A 296 9.137 15.980 −2.756 1.00 14.74 896 CZ ARG A 296 8.449 15.881 −3.887 1.00 13.62 897 NH1 ARG A 296 9.029 15.416 −4.988 1.00 12.42 898 NH2 ARG A 296 7.184 16.276 −3.919 1.00 13.67 899 C ARG A 296 12.229 14.152 1.018 1.00 15.32 900 O ARG A 296 12.639 13.078 0.533 1.00 16.68 901 N THR A 297 13.037 15.046 1.576 1.00 14.40 902 CA THR A 297 14.455 14.806 1.675 1.00 13.98 903 CB THR A 297 15.152 16.025 2.275 1.00 14.79 904 OG1 THR A 297 15.182 17.055 1.291 1.00 16.57 905 CG2 THR A 297 16.551 15.700 2.730 1.00 14.07 906 C THR A 297 14.710 13.581 2.527 1.00 14.36 907 O THR A 297 15.529 12.734 2.180 1.00 14.79 908 N GLN A 298 14.033 13.509 3.666 1.00 15.33 909 CA GLN A 298 14.176 12.383 4.576 1.00 15.06 910 CB GLN A 298 13.520 12.704 5.927 1.00 16.77 911 CG GLN A 298 14.257 13.756 6.743 1.00 15.29 912 CD GLN A 298 13.446 14.272 7.923 1.00 17.60 913 OE1 GLN A 298 12.222 14.328 7.873 1.00 17.10 914 NE2 GLN A 298 14.132 14.713 8.964 1.00 17.23 915 C GLN A 298 13.657 11.054 3.973 1.00 15.13 916 O GLN A 298 14.256 9.999 4.218 1.00 15.27 917 N MET A 299 12.561 11.082 3.201 1.00 15.38 918 CA MET A 299 12.076 9.848 2.564 1.00 15.55 919 CB MET A 299 10.863 10.093 1.703 1.00 12.60 920 CG MET A 299 9.663 10.434 2.476 1.00 15.70 921 SD MET A 299 9.234 9.124 3.549 1.00 17.19 922 CE MET A 299 8.349 8.002 2.467 1.00 16.80 923 C MET A 299 13.189 9.358 1.652 1.00 16.05 924 O MET A 299 13.461 8.167 1.572 1.00 17.34 925 N HIS A 300 13.835 10.302 0.967 1.00 16.17 926 CA HIS A 300 14.938 9.995 0.065 1.00 16.17 927 CB HIS A 300 15.429 11.282 −0.636 1.00 15.59 928 CG HIS A 300 16.578 11.061 −1.561 1.00 15.33 929 CD2 HIS A 300 16.620 10.844 −2.897 1.00 17.23 930 ND1 HIS A 300 17.885 10.994 −1.123 1.00 16.64 931 CE1 HIS A 300 18.675 10.737 −2.149 1.00 14.56 932 NE2 HIS A 300 17.937 10.641 −3.236 1.00 16.30 933 C HIS A 300 16.081 9.345 0.831 1.00 16.05 934 O HIS A 300 16.565 8.265 0.455 1.00 15.26 935 N ASN A 301 16.475 10.004 1.919 1.00 16.64 936 CA ASN A 301 17.573 9.576 2.778 1.00 16.77 937 CB ASN A 301 17.895 10.658 3.823 1.00 16.75 938 CG ASN A 301 18.406 11.957 3.184 1.00 20.30 939 OD1 ASN A 301 18.804 11.967 1.999 1.00 20.59 940 ND2 ASN A 301 18.335 13.066 3.931 1.00 18.69 941 C ASN A 301 17.288 8.276 3.460 1.00 16.93 942 O ASN A 301 18.206 7.536 3.774 1.00 17.99 943 N ALA A 302 16.012 7.988 3.680 1.00 17.82 944 CA ALA A 302 15.612 6.756 4.338 1.00 16.47 945 CB ALA A 302 14.205 6.884 4.842 1.00 15.77 946 C ALA A 302 15.760 5.503 3.469 1.00 16.21 947 O ALA A 302 15.642 4.398 3.961 1.00 16.49 948 N GLY A 303 16.016 5.665 2.180 1.00 17.15 949 CA GLY A 303 16.162 4.500 1.337 1.00 17.25 950 C GLY A 303 15.488 4.587 −0.019 1.00 18.29 951 O GLY A 303 15.826 3.816 −0.916 1.00 19.54 952 N PHE A 304 14.551 5.511 −0.204 1.00 18.25 953 CA PHE A 304 13.872 5.603 −1.499 1.00 18.54 954 CB PHE A 304 12.661 6.534 −1.435 1.00 19.40 955 CG PHE A 304 11.458 5.915 −0.797 1.00 18.61 956 CD1 PHE A 304 11.297 5.929 0.581 1.00 18.46 957 CD2 PHE A 304 10.496 5.294 −1.574 1.00 19.63 958 CE1 PHE A 304 10.193 5.329 1.167 1.00 21.04 959 CE2 PHE A 304 9.385 4.690 −0.991 1.00 19.15 960 CZ PHE A 304 9.233 4.707 0.373 1.00 18.69 961 C PHE A 304 14.799 6.009 −2.631 1.00 18.46 962 O PHE A 304 14.502 5.764 −3.795 1.00 17.98 963 N GLY A 305 15.905 6.656 −2.288 1.00 18.96 964 CA GLY A 305 16.880 7.063 −3.279 1.00 19.43 965 C GLY A 305 16.334 7.777 −4.501 1.00 21.11 966 O GLY A 305 15.509 8.673 −4.375 1.00 22.17 967 N PRO A 306 16.788 7.415 −5.710 1.00 20.61 968 CD PRO A 306 17.788 6.375 −6.011 1.00 19.86 969 CA PRO A 306 16.313 8.058 −6.938 1.00 21.15 970 CB PRO A 306 17.242 7.469 −7.992 1.00 20.67 971 CG PRO A 306 17.521 6.088 −7.448 1.00 21.94 972 C PRO A 306 14.841 7.801 −7.289 1.00 21.61 973 O PRO A 306 14.380 8.213 −8.353 1.00 23.28 974 N LEU A 307 14.094 7.179 −6.383 1.00 20.33 975 CA LEU A 307 12.704 6.867 −6.635 1.00 18.74 976 CB LEU A 307 12.469 5.399 −6.291 1.00 21.17 977 CG LEU A 307 11.118 4.743 −6.613 1.00 22.39 978 CD1 LEU A 307 10.957 4.594 −8.125 1.00 23.14 979 CD2 LEU A 307 11.022 3.392 −5.937 1.00 20.12 980 C LEU A 307 11.742 7.727 −5.842 1.00 18.73 981 O LEU A 307 10.545 7.704 −6.099 1.00 18.72 982 N THR A 308 12.262 8.554 −4.938 1.00 18.50 983 CA THR A 308 11.408 9.364 −4.086 1.00 17.36 984 CB THR A 308 12.168 10.000 −2.895 1.00 19.93 985 OG1 THR A 308 12.308 11.404 −3.075 1.00 22.32 986 CG2 THR A 308 13.514 9.432 −2.736 1.00 17.49 987 C THR A 308 10.517 10.405 −4.740 1.00 17.72 988 O THR A 308 9.407 10.655 −4.278 1.00 17.73 989 N ASP A 309 10.993 11.056 −5.786 1.00 18.34 990 CA ASP A 309 10.167 12.075 −6.434 1.00 18.34 991 CB ASP A 309 11.005 12.964 −7.311 1.00 19.68 992 CG ASP A 309 12.048 13.663 −6.536 1.00 21.80 993 OD1 ASP A 309 13.247 13.519 −6.891 1.00 23.93 994 OD2 ASP A 309 11.655 14.322 −5.541 1.00 22.59 995 C ASP A 309 9.028 11.512 −7.223 1.00 17.07 996 O ASP A 309 8.056 12.211 −7.439 1.00 16.35 997 N LEU A 310 9.221 10.299 −7.745 1.00 19.09 998 CA LEU A 310 8.204 9.559 −8.497 1.00 21.41 999 CB LEU A 310 8.793 8.312 −9.158 1.00 23.47 1000 CG LEU A 310 9.273 8.446 −10.593 1.00 25.11 1001 CD1 LEU A 310 9.871 7.129 −11.041 1.00 25.39 1002 CD2 LEU A 310 8.099 8.832 −11.480 1.00 25.87 1003 C LEU A 310 7.118 9.110 −7.525 1.00 20.39 1004 O LEU A 310 5.930 9.230 −7.812 1.00 21.79 1005 N VAL A 311 7.537 8.603 −6.367 1.00 18.78 1006 CA VAL A 311 6.592 8.172 −5.342 1.00 16.69 1007 CB VAL A 311 7.333 7.597 −4.124 1.00 15.13 1008 CG1 VAL A 311 6.361 7.169 −3.020 1.00 15.45 1009 CG2 VAL A 311 8.190 6.454 −4.575 1.00 15.80 1010 C VAL A 311 5.763 9.376 −4.927 1.00 14.96 1011 O VAL A 311 4.554 9.289 −4.840 1.00 14.98 1012 N PHE A 312 6.422 10.515 −4.720 1.00 16.10 1013 CA PHE A 312 5.744 11.749 −4.312 1.00 15.43 1014 CB PHE A 312 6.735 12.837 −3.932 1.00 16.20 1015 CG PHE A 312 7.194 12.758 −2.504 1.00 17.26 1016 CD1 PHE A 312 8.062 11.749 −2.089 1.00 16.99 1017 CD2 PHE A 312 6.723 13.668 −1.562 1.00 13.96 1018 CE1 PHE A 312 8.442 11.652 −0.762 1.00 16.48 1019 CE2 PHE A 312 7.098 13.575 −0.247 1.00 13.39 1020 CZ PHE A 312 7.959 12.566 0.157 1.00 15.65 1021 C PHE A 312 4.836 12.257 −5.385 1.00 15.11 1022 O PHE A 312 3.819 12.847 −5.092 1.00 16.14 1023 N ALA A 313 5.207 12.031 −6.633 1.00 15.74 1024 CA ALA A 313 4.384 12.462 −7.745 1.00 16.86 1025 CB ALA A 313 5.200 12.487 −9.027 1.00 18.61 1026 C ALA A 313 3.174 11.534 −7.873 1.00 17.47 1027 O ALA A 313 2.081 11.989 −8.221 1.00 17.51 1028 N PHE A 314 3.363 10.243 −7.592 1.00 16.65 1029 CA PHE A 314 2.266 9.264 −7.638 1.00 16.43 1030 CB PHE A 314 2.783 7.831 −7.446 1.00 16.00 1031 CG PHE A 314 1.683 6.812 −7.234 1.00 19.00 1032 CD1 PHE A 314 1.002 6.270 −8.316 1.00 19.62 1033 CD2 PHE A 314 1.262 6.460 −5.936 1.00 20.46 1034 CE1 PHE A 314 −0.090 5.401 −8.111 1.00 20.93 1035 CE2 PHE A 314 0.167 5.590 −5.724 1.00 21.50 1036 CZ PHE A 314 −0.510 5.067 −6.813 1.00 20.23 1037 C PHE A 314 1.284 9.602 −6.520 1.00 15.99 1038 O PHE A 314 0.063 9.549 −6.707 1.00 15.93 1039 N ALA A 315 1.827 9.928 −5.348 1.00 16.04 1040 CA ALA A 315 1.013 10.310 −4.198 1.00 16.36 1041 CB ALA A 315 1.887 10.566 −2.991 1.00 15.32 1042 C ALA A 315 0.211 11.555 −4.554 1.00 17.37 1043 O ALA A 315 −0.991 11.588 −4.352 1.00 17.22 1044 N GLY A 316 0.869 12.556 −5.135 1.00 17.35 1045 CA GLY A 316 0.170 13.772 −5.518 1.00 18.94 1046 C GLY A 316 −0.985 13.482 −6.461 1.00 19.73 1047 O GLY A 316 −2.080 14.009 −6.288 1.00 20.12 1048 N GLN A 317 −0.762 12.589 −7.420 1.00 20.89 1049 CA GLN A 317 −1.790 12.235 −8.387 1.00 21.78 1050 CB GLN A 317 −1.219 11.444 −9.571 1.00 24.33 1051 CG GLN A 317 0.083 11.942 −10.165 1.00 29.59 1052 CD GLN A 317 0.028 13.378 −10.618 1.00 31.66 1053 OE1 GLN A 317 −0.293 13.660 −11.777 1.00 36.70 1054 NE2 GLN A 317 0.406 14.296 −9.735 1.00 32.00 1055 C GLN A 317 −2.898 11.416 −7.753 1.00 22.05 1056 O GLN A 317 −3.886 11.132 −8.413 1.00 23.27 1057 N LEU A 318 −2.715 10.972 −6.514 1.00 20.74 1058 CA LEU A 318 −3.752 10.203 −5.826 1.00 21.03 1059 CB LEU A 318 −3.123 9.373 −4.709 1.00 22.39 1060 CG LEU A 318 −3.523 7.928 −4.446 1.00 23.30 1061 CD1 LEU A 318 −3.281 7.089 −5.691 1.00 24.32 1062 CD2 LEU A 318 −2.729 7.374 −3.269 1.00 23.64 1063 C LEU A 318 −4.742 11.190 −5.207 1.00 21.50 1064 O LEU A 318 −5.926 10.916 −5.102 1.00 21.19 1065 N LEU A 319 −4.248 12.365 −4.830 1.00 22.63 1066 CA LEU A 319 −5.070 13.400 −4.204 1.00 23.25 1067 CB LEU A 319 −4.273 14.686 −4.051 1.00 23.72 1068 CG LEU A 319 −3.003 14.592 −3.232 1.00 25.21 1069 CD1 LEU A 319 −2.286 15.940 −3.333 1.00 27.97 1070 CD2 LEU A 319 −3.328 14.206 −1.777 1.00 25.70 1071 C LEU A 319 −6.410 13.706 −4.873 1.00 23.85 1072 O LEU A 319 −7.439 13.673 −4.205 1.00 25.23 1073 N PRO A 320 −6.409 14.089 −6.174 1.00 24.07 1074 CD PRO A 320 −5.220 14.333 −7.024 1.00 24.33 1075 CA PRO A 320 −7.639 14.399 −6.918 1.00 23.26 1076 CB PRO A 320 −7.147 14.461 −8.359 1.00 25.29 1077 CG PRO A 320 −5.792 15.070 −8.216 1.00 24.51 1078 C PRO A 320 −8.706 13.318 −6.785 1.00 22.41 1079 O PRO A 320 −9.890 13.602 −6.957 1.00 22.31 1080 N LEU A 321 −8.282 12.074 −6.542 1.00 20.32 1081 CA LEU A 321 −9.218 10.976 −6.380 1.00 18.93 1082 CB LEU A 321 −8.507 9.622 −6.432 1.00 18.78 1083 CG LEU A 321 −8.308 9.035 −7.843 1.00 18.00 1084 CD1 LEU A 321 −7.322 9.867 −8.584 1.00 20.63 1085 CD2 LEU A 321 −7.843 7.596 −7.791 1.00 17.88 1086 C LEU A 321 −10.043 11.082 −5.108 1.00 19.17 1087 O LEU A 321 −11.062 10.410 −4.981 1.00 20.44 1088 N GLU A 322 −9.577 11.866 −4.143 1.00 19.27 1089 CA GLU A 322 −10.290 12.061 −2.867 1.00 20.00 1090 CB GLU A 322 −11.350 13.156 −3.000 1.00 20.61 1091 CG GLU A 322 −10.827 14.420 −3.641 1.00 25.44 1092 CD GLU A 322 −11.576 15.666 −3.219 1.00 28.32 1093 OE1 GLU A 322 −12.037 15.749 −2.053 1.00 30.30 1094 OE2 GLU A 322 −11.670 16.588 −4.051 1.00 30.01 1095 C GLU A 322 −10.954 10.800 −2.304 1.00 19.37 1096 O GLU A 322 −12.119 10.820 −1.932 1.00 20.57 1097 N MET A 323 −10.200 9.713 −2.248 1.00 18.99 1098 CA MET A 323 −10.670 8.441 −1.736 1.00 17.81 1099 CB MET A 323 −9.713 7.322 −2.174 1.00 19.71 1100 CG MET A 323 −9.790 6.904 −3.653 1.00 21.26 1101 SD MET A 323 −8.392 5.832 −4.116 1.00 22.21 1102 CE MET A 323 −8.757 4.374 −3.384 1.00 22.92 1103 C MET A 323 −10.743 8.430 −0.212 1.00 17.71 1104 O MET A 323 −9.899 9.034 0.475 1.00 19.02 1105 N ASP A 324 −11.721 7.710 0.336 1.00 16.79 1106 CA ASP A 324 −11.809 7.612 1.792 1.00 15.53 1107 CB ASP A 324 −13.250 7.787 2.304 1.00 15.59 1108 CG ASP A 324 −14.227 6.832 1.676 1.00 15.20 1109 OD1 ASP A 324 −13.848 6.064 0.789 1.00 16.66 1110 OD2 ASP A 324 −15.385 6.860 2.089 1.00 15.60 1111 C ASP A 324 −11.171 6.317 2.248 1.00 14.20 1112 O ASP A 324 −10.575 5.616 1.445 1.00 14.53 1113 N ASP A 325 −11.242 6.014 3.532 1.00 15.62 1114 CA ASP A 325 −10.639 4.791 4.059 1.00 16.98 1115 CB ASP A 325 −10.704 4.758 5.597 1.00 22.06 1116 CG ASP A 325 −9.869 5.869 6.267 1.00 27.41 1117 OD1 ASP A 325 −8.947 6.436 5.627 1.00 28.96 1118 OD2 ASP A 325 −10.141 6.172 7.464 1.00 31.89 1119 C ASP A 325 −11.263 3.503 3.494 1.00 16.36 1120 O ASP A 325 −10.576 2.507 3.290 1.00 16.22 1121 N THR A 326 −12.565 3.495 3.252 1.00 17.30 1122 CA THR A 326 −13.161 2.283 2.722 1.00 15.19 1123 CB THR A 326 −14.687 2.297 2.832 1.00 16.45 1124 OG1 THR A 326 −15.235 3.016 1.729 1.00 23.49 1125 CG2 THR A 326 −15.134 2.966 4.100 1.00 13.11 1126 C THR A 326 −12.695 2.044 1.282 1.00 13.91 1127 O THR A 326 −12.304 0.945 0.956 1.00 14.30 1128 N GLU A 327 −12.669 3.087 0.451 1.00 13.54 1129 CA GLU A 327 −12.217 2.993 −0.950 1.00 14.50 1130 CB GLU A 327 −12.342 4.337 −1.669 1.00 13.69 1131 CG GLU A 327 −13.739 4.596 −2.188 1.00 15.66 1132 CD GLU A 327 −14.061 6.070 −2.461 1.00 15.47 1133 OE1 GLU A 327 −15.220 6.353 −2.821 1.00 15.80 1134 OE2 GLU A 327 −13.187 6.940 −2.322 1.00 14.96 1135 C GLU A 327 −10.779 2.530 −1.005 1.00 13.39 1136 O GLU A 327 −10.410 1.699 −1.835 1.00 13.39 1137 N THR A 328 −9.962 3.095 −0.132 1.00 12.39 1138 CA THR A 328 −8.561 2.694 −0.046 1.00 14.32 1139 CB THR A 328 −7.788 3.598 0.931 1.00 12.84 1140 OG1 THR A 328 −7.866 4.957 0.491 1.00 14.19 1141 CG2 THR A 328 −6.377 3.177 1.007 1.00 12.73 1142 C THR A 328 −8.489 1.229 0.434 1.00 13.38 1143 O THR A 328 −7.683 0.436 −0.065 1.00 12.40 1144 N GLY A 329 −9.342 0.878 1.398 1.00 14.14 1145 CA GLY A 329 −9.367 −0.473 1.917 1.00 10.87 1146 C GLY A 329 −9.775 −1.407 0.806 1.00 11.08 1147 O GLY A 329 −9.111 −2.414 0.588 1.00 11.93 1148 N LEU A 330 −10.815 −1.037 0.061 1.00 11.42 1149 CA LEU A 330 −11.325 −1.851 −1.059 1.00 13.84 1150 CB LEU A 330 −12.663 −1.303 −1.587 1.00 11.99 1151 CG LEU A 330 −13.901 −1.664 −0.741 1.00 14.67 1152 CD1 LEU A 330 −15.063 −0.697 −0.978 1.00 13.20 1153 CD2 LEU A 330 −14.309 −3.124 −1.000 1.00 13.43 1154 C LEU A 330 −10.314 −1.973 −2.202 1.00 14.49 1155 O LEU A 330 −10.076 −3.078 −2.719 1.00 14.89 1156 N LEU A 331 −9.674 −0.855 −2.540 1.00 13.76 1157 CA LEU A 331 −8.664 −0.830 −3.586 1.00 13.42 1158 CB LEU A 331 −8.134 0.600 −3.768 1.00 14.33 1159 CG LEU A 331 −7.713 1.059 −5.173 1.00 16.95 1160 CD1 LEU A 331 −6.203 1.142 −5.329 1.00 19.20 1161 CD2 LEU A 331 −8.335 0.175 −6.231 1.00 17.35 1162 C LEU A 331 −7.531 −1.778 −3.192 1.00 12.94 1163 O LEU A 331 −7.024 −2.520 −4.021 1.00 12.82 1164 N SER A 332 −7.150 −1.775 −1.919 1.00 12.43 1165 CA SER A 332 −6.095 −2.686 −1.448 1.00 12.96 1166 CB SER A 332 −5.725 −2.391 0.004 1.00 12.28 1167 OG SER A 332 −5.214 −1.089 0.125 1.00 15.83 1168 C SER A 332 −6.506 −4.147 −1.548 1.00 12.57 1169 O SER A 332 −5.710 −4.987 −1.958 1.00 11.85 1170 N ALA A 333 −7.724 −4.461 −1.115 1.00 13.37 1171 CA ALA A 333 −8.223 −5.827 −1.186 1.00 12.68 1172 CB ALA A 333 −9.597 −5.898 −0.596 1.00 12.86 1173 C ALA A 333 −8.236 −6.308 −2.647 1.00 15.04 1174 O ALA A 333 −8.082 −7.509 −2.925 1.00 15.25 1175 N ILE A 334 −8.434 −5.376 −3.578 1.00 14.01 1176 CA ILE A 334 −8.450 −5.708 −4.987 1.00 14.07 1177 CB ILE A 334 −9.149 −4.598 −5.764 1.00 13.20 1178 CG2 ILE A 334 −8.953 −4.760 −7.223 1.00 15.19 1179 CG1 ILE A 334 −10.636 −4.641 −5.458 1.00 14.68 1180 CD1 ILE A 334 −11.453 −3.593 −6.150 1.00 13.41 1181 C ILE A 334 −7.022 −6.007 −5.520 1.00 15.78 1182 O ILE A 334 −6.831 −6.917 −6.337 1.00 14.01 1183 N CYS A 335 −6.022 −5.273 −5.032 1.00 16.38 1184 CA CYS A 335 −4.635 −5.490 −5.457 1.00 18.88 1185 CB CYS A 335 −3.700 −4.394 −4.918 1.00 19.50 1186 SG CYS A 335 −4.015 −2.754 −5.628 1.00 25.06 1187 C CYS A 335 −4.110 −6.843 −5.008 1.00 18.00 1188 O CYS A 335 −3.390 −7.533 −5.741 1.00 18.49 1189 N LEU A 336 −4.489 −7.212 −3.801 1.00 18.10 1190 CA LEU A 336 −4.064 −8.447 −3.187 1.00 19.39 1191 CB LEU A 336 −4.320 −8.350 −1.698 1.00 21.55 1192 CG LEU A 336 −3.820 −9.468 −0.803 1.00 26.30 1193 CD1 LEU A 336 −2.322 −9.368 −0.642 1.00 27.11 1194 CD2 LEU A 336 −4.488 −9.295 0.550 1.00 25.31 1195 C LEU A 336 −4.748 −9.690 −3.750 1.00 19.53 1196 O LEU A 336 −4.086 −10.688 −4.073 1.00 18.48 1197 N ILE A 337 −6.073 −9.659 −3.834 1.00 19.32 1198 CA ILE A 337 −6.807 −10.811 −4.359 1.00 19.91 1199 CB ILE A 337 −8.156 −10.997 −3.605 1.00 19.73 1200 CG2 ILE A 337 −8.926 −12.207 −4.130 1.00 21.03 1201 CG1 ILE A 337 −7.854 −11.232 −2.130 1.00 18.54 1202 CD1 ILE A 337 −9.052 −11.440 −1.328 1.00 21.98 1203 C ILE A 337 −6.935 −10.668 −5.888 1.00 19.55 1204 O ILE A 337 −7.909 −10.128 −6.431 1.00 19.70 1205 N CYS A 338 −5.867 −11.090 −6.551 1.00 19.24 1206 CA CYS A 338 −5.731 −11.026 −7.988 1.00 19.05 1207 CB CYS A 338 −4.568 −10.136 −8.322 1.00 18.09 1208 SG CYS A 338 −4.456 −9.913 −10.046 1.00 24.64 1209 C CYS A 338 −5.416 −12.420 −8.453 1.00 19.13 1210 O CYS A 338 −4.460 −13.010 −7.987 1.00 18.29 1211 N GLY A 339 −6.213 −12.951 −9.367 1.00 21.16 1212 CA GLY A 339 −5.994 −14.305 −9.827 1.00 21.28 1213 C GLY A 339 −4.999 −14.426 −10.946 1.00 22.01 1214 O GLY A 339 −4.726 −15.516 −11.433 1.00 23.62 1215 N ASP A 340 −4.419 −13.308 −11.332 1.00 22.60 1216 CA ASP A 340 −3.465 −13.326 −12.416 1.00 24.56 1217 CB ASP A 340 −3.737 −12.157 −13.343 1.00 26.57 1218 CG ASP A 340 −5.116 −12.277 −13.985 1.00 31.47 1219 OD1 ASP A 340 −5.312 −13.227 −14.795 1.00 32.06 1220 OD2 ASP A 340 −6.030 −11.485 −13.630 1.00 32.04 1221 C ASP A 340 −2.010 −13.444 −12.031 1.00 23.99 1222 O ASP A 340 −1.130 −13.301 −12.865 1.00 23.98 1223 N ARG A 341 −1.765 −13.794 −10.777 1.00 23.91 1224 CA ARG A 341 −0.406 −13.961 −10.310 1.00 24.57 1225 CB ARG A 341 −0.307 −13.885 −8.787 1.00 22.12 1226 CG ARG A 341 −0.986 −12.700 −8.157 1.00 23.69 1227 CD ARG A 341 −0.405 −11.410 −8.644 1.00 23.69 1228 NE ARG A 341 −0.852 −10.289 −7.830 1.00 23.18 1229 CZ ARG A 341 −0.271 −9.091 −7.827 1.00 24.92 1230 NH1 ARG A 341 0.795 −8.839 −8.597 1.00 24.43 1231 NH2 ARG A 341 −0.770 −8.134 −7.067 1.00 23.98 1232 C ARG A 341 0.016 −15.338 −10.754 1.00 25.19 1233 O ARG A 341 −0.797 −16.257 −10.871 1.00 23.68 1234 N MET A 342 1.303 −15.458 −11.026 1.00 28.20 1235 CA MET A 342 1.897 −16.712 −11.441 1.00 29.89 1236 CB MET A 342 3.298 −16.434 −11.964 1.00 31.90 1237 CG MET A 342 3.356 −15.306 −12.979 1.00 34.96 1238 SD MET A 342 5.057 −14.882 −13.280 1.00 38.16 1239 CE MET A 342 5.837 −16.599 −13.163 1.00 35.02 1240 C MET A 342 1.998 −17.549 −10.189 1.00 29.29 1241 O MET A 342 1.819 −17.034 −9.093 1.00 31.37 1242 N ASP A 343 2.292 −18.830 −10.347 1.00 30.14 1243 CA ASP A 343 2.461 −19.716 −9.202 1.00 29.67 1244 CB ASP A 343 3.553 −19.176 −8.253 1.00 31.20 1245 CG ASP A 343 4.964 −19.442 −8.758 1.00 32.74 1246 OD1 ASP A 343 5.760 −20.023 −7.982 1.00 36.46 1247 OD2 ASP A 343 5.281 −19.083 −9.917 1.00 33.75 1248 C ASP A 343 1.202 −19.984 −8.399 1.00 28.09 1249 O ASP A 343 1.280 −20.610 −7.344 1.00 28.84 1250 N LEU A 344 0.059 −19.471 −8.843 1.00 25.57 1251 CA LEU A 344 −1.181 −19.714 −8.136 1.00 22.21 1252 CB LEU A 344 −2.242 −18.714 −8.541 1.00 22.99 1253 CG LEU A 344 −2.162 −17.320 −7.943 1.00 21.45 1254 CD1 LEU A 344 −3.464 −16.616 −8.305 1.00 19.98 1255 CD2 LEU A 344 −1.996 −17.397 −6.426 1.00 20.99 1256 C LEU A 344 −1.683 −21.094 −8.458 1.00 22.04 1257 O LEU A 344 −1.693 −21.490 −9.613 1.00 22.32 1258 N GLU A 345 −2.113 −21.811 −7.430 1.00 21.27 1259 CA GLU A 345 −2.637 −23.162 −7.570 1.00 22.42 1260 CB GLU A 345 −2.517 −23.929 −6.248 1.00 20.74 1261 CG GLU A 345 −1.130 −24.139 −5.727 1.00 21.34 1262 CD GLU A 345 −1.110 −24.823 −4.356 1.00 22.75 1263 OE1 GLU A 345 −0.090 −25.459 −4.020 1.00 27.68 1264 OE2 GLU A 345 −2.083 −24.728 −3.592 1.00 22.70 1265 C GLU A 345 −4.112 −23.159 −7.991 1.00 23.85 1266 O GLU A 345 −4.566 −24.074 −8.688 1.00 25.61 1267 N GLU A 346 −4.872 −22.172 −7.506 1.00 23.67 1268 CA GLU A 346 −6.297 −22.051 −7.824 1.00 21.44 1269 CB GLU A 346 −7.115 −22.369 −6.586 1.00 23.93 1270 CG GLU A 346 −6.731 −23.661 −5.904 1.00 26.46 1271 CD GLU A 346 −7.759 −24.079 −4.886 1.00 27.98 1272 OE1 GLU A 346 −8.422 −25.102 −5.131 1.00 30.36 1273 OE2 GLU A 346 −7.931 −23.378 −3.859 1.00 29.40 1274 C GLU A 346 −6.621 −20.632 −8.245 1.00 20.32 1275 O GLU A 346 −7.343 −19.940 −7.535 1.00 18.83 1276 N PRO A 347 −6.183 −20.210 −9.447 1.00 19.81 1277 CD PRO A 347 −5.623 −20.981 −10.556 1.00 19.32 1278 CA PRO A 347 −6.444 −18.854 −9.912 1.00 21.05 1279 CB PRO A 347 −5.813 −18.831 −11.300 1.00 20.06 1280 CG PRO A 347 −4.854 −19.906 −11.273 1.00 18.82 1281 C PRO A 347 −7.907 −18.599 −10.004 1.00 22.73 1282 O PRO A 347 −8.349 −17.509 −9.693 1.00 24.63 1283 N GLU A 348 −8.658 −19.634 −10.366 1.00 25.04 1284 CA GLU A 348 −10.105 −19.536 −10.507 1.00 27.41 1285 CB GLU A 348 −10.727 −20.861 −10.990 1.00 28.57 1286 CG GLU A 348 −9.826 −21.704 −11.901 1.00 33.98 1287 CD GLU A 348 −9.147 −22.891 −11.181 1.00 34.30 1288 OE1 GLU A 348 −8.753 −22.756 −10.002 1.00 34.12 1289 OE2 GLU A 348 −9.025 −23.974 −11.804 1.00 36.51 1290 C GLU A 348 −10.762 −19.126 −9.197 1.00 26.86 1291 O GLU A 348 −11.687 −18.318 −9.202 1.00 28.63 1292 N LYS A 349 −10.307 −19.676 −8.076 1.00 25.97 1293 CA LYS A 349 −10.911 −19.329 −6.776 1.00 25.62 1294 CB LYS A 349 −10.398 −20.237 −5.647 1.00 26.61 1295 CG LYS A 349 −11.091 −20.003 −4.291 1.00 28.17 1296 CD LYS A 349 −10.565 −20.962 −3.209 1.00 29.75 1297 CE LYS A 349 −11.466 −21.020 −1.958 1.00 30.29 1298 NZ LYS A 349 −11.193 −20.025 −0.857 1.00 31.95 1299 C LYS A 349 −10.617 −17.889 −6.413 1.00 24.22 1300 O LYS A 349 −11.445 −17.199 −5.815 1.00 24.94 1301 N VAL A 350 −9.428 −17.436 −6.790 1.00 23.42 1302 CA VAL A 350 −9.020 −16.079 −6.489 1.00 19.37 1303 CB VAL A 350 −7.517 −15.873 −6.708 1.00 17.26 1304 CG1 VAL A 350 −7.127 −14.526 −6.154 1.00 17.10 1305 CG2 VAL A 350 −6.715 −16.984 −5.997 1.00 14.99 1306 C VAL A 350 −9.862 −15.121 −7.312 1.00 17.30 1307 O VAL A 350 −10.335 −14.126 −6.790 1.00 16.58 1308 N ASP A 351 −10.117 −15.452 −8.570 1.00 18.10 1309 CA ASP A 351 −10.960 −14.595 −9.410 1.00 20.96 1310 CB ASP A 351 −11.014 −15.106 −10.855 1.00 25.84 1311 CG ASP A 351 −9.711 −14.860 −11.615 1.00 30.06 1312 OD1 ASP A 351 −8.712 −14.416 −10.998 1.00 32.95 1313 OD2 ASP A 351 −9.688 −15.119 −12.833 1.00 33.18 1314 C ASP A 351 −12.380 −14.457 −8.883 1.00 19.72 1315 O ASP A 351 −12.999 −13.402 −9.037 1.00 19.10 1316 N LYS A 352 −12.894 −15.536 −8.297 1.00 20.03 1317 CA LYS A 352 −14.240 −15.558 −7.741 1.00 19.45 1318 CB LYS A 352 −14.695 −16.982 −7.410 1.00 21.58 1319 CG LYS A 352 −15.209 −17.769 −8.631 1.00 26.04 1320 CD LYS A 352 −16.394 −17.057 −9.312 1.00 29.59 1321 CE LYS A 352 −16.941 −17.844 −10.526 1.00 31.85 1322 NZ LYS A 352 −17.951 −17.067 −11.361 1.00 31.59 1323 C LYS A 352 −14.276 −14.715 −6.501 1.00 18.59 1324 O LYS A 352 −15.303 −14.120 −6.185 1.00 17.49 1325 N LEU A 353 −13.157 −14.671 −5.783 1.00 17.89 1326 CA LEU A 353 −13.071 −13.854 −4.575 1.00 18.26 1327 CB LEU A 353 −11.879 −14.285 −3.732 1.00 19.79 1328 CG LEU A 353 −12.035 −15.625 −3.050 1.00 22.37 1329 CD1 LEU A 353 −10.676 −16.118 −2.633 1.00 22.45 1330 CD2 LEU A 353 −12.959 −15.441 −1.860 1.00 21.09 1331 C LEU A 353 −12.931 −12.372 −4.914 1.00 16.10 1332 O LEU A 353 −13.499 −11.511 −4.264 1.00 17.51 1333 N GLN A 354 −12.211 −12.073 −5.972 1.00 15.53 1334 CA GLN A 354 −12.028 −10.686 −6.324 1.00 16.30 1335 CB GLN A 354 −11.011 −10.546 −7.423 1.00 18.24 1336 CG GLN A 354 −10.490 −9.134 −7.548 1.00 20.89 1337 CD GLN A 354 −9.690 −8.981 −8.788 1.00 20.24 1338 OE1 GLN A 354 −10.152 −9.344 −9.864 1.00 20.86 1339 NE2 GLN A 354 −8.453 −8.520 −8.650 1.00 20.85 1340 C GLN A 354 −13.294 −10.042 −6.777 1.00 16.79 1341 O GLN A 354 −13.531 −8.886 −6.460 1.00 15.54 1342 N GLU A 355 −14.091 −10.786 −7.544 1.00 16.68 1343 CA GLU A 355 −15.356 −10.278 −8.085 1.00 17.94 1344 CB GLU A 355 −16.217 −11.428 −8.652 1.00 20.78 1345 CG GLU A 355 −15.669 −12.105 −9.922 1.00 24.97 1346 CD GLU A 355 −16.624 −13.171 −10.526 1.00 26.48 1347 OE1 GLU A 355 −17.825 −13.230 −10.175 1.00 26.49 1348 OE2 GLU A 355 −16.162 −13.963 −11.372 1.00 29.34 1349 C GLU A 355 −16.207 −9.377 −7.153 1.00 15.27 1350 O GLU A 355 −16.493 −8.235 −7.498 1.00 14.44 1351 N PRO A 356 −16.628 −9.887 −5.979 1.00 13.16 1352 CD PRO A 356 −16.451 −11.225 −5.408 1.00 11.51 1353 CA PRO A 356 −17.431 −9.050 −5.089 1.00 12.93 1354 CB PRO A 356 −17.646 −9.951 −3.877 1.00 13.16 1355 CG PRO A 356 −17.557 −11.299 −4.424 1.00 14.47 1356 C PRO A 356 −16.729 −7.761 −4.691 1.00 13.27 1357 O PRO A 356 −17.382 −6.761 −4.405 1.00 12.63 1358 N LEU A 357 −15.400 −7.795 −4.637 1.00 14.63 1359 CA LEU A 357 −14.618 −6.619 −4.254 1.00 13.35 1360 CB LEU A 357 −13.155 −6.968 −4.004 1.00 12.64 1361 CG LEU A 357 −12.840 −7.943 −2.867 1.00 12.80 1362 CD1 LEU A 357 −11.396 −8.349 −2.938 1.00 11.06 1363 CD2 LEU A 357 −13.117 −7.318 −1.528 1.00 13.33 1364 C LEU A 357 −14.730 −5.573 −5.344 1.00 14.30 1365 O LEU A 357 −14.841 −4.389 −5.043 1.00 16.28 1366 N LEU A 358 −14.756 −5.996 −6.607 1.00 13.24 1367 CA LEU A 358 −14.886 −5.043 −7.693 1.00 13.47 1368 CB LEU A 358 −14.718 −5.699 −9.054 1.00 15.18 1369 CG LEU A 358 −13.305 −6.100 −9.463 1.00 18.18 1370 CD1 LEU A 358 −13.306 −6.601 −10.894 1.00 17.71 1371 CD2 LEU A 358 −12.410 −4.898 −9.333 1.00 17.17 1372 C LEU A 358 −16.258 −4.428 −7.605 1.00 13.18 1373 O LEU A 358 −16.415 −3.231 −7.785 1.00 14.40 1374 N GLU A 359 −17.260 −5.250 −7.331 1.00 12.57 1375 CA GLU A 359 −18.624 −4.767 −7.200 1.00 13.28 1376 CB GLU A 359 −19.573 −5.928 −6.986 1.00 15.79 1377 CG GLU A 359 −20.365 −6.303 −8.169 1.00 21.23 1378 CD GLU A 359 −21.319 −7.407 −7.837 1.00 25.40 1379 OE1 GLU A 359 −22.426 −7.086 −7.341 1.00 26.24 1380 OE2 GLU A 359 −20.947 −8.588 −8.038 1.00 27.57 1381 C GLU A 359 −18.807 −3.824 −6.030 1.00 11.49 1382 O GLU A 359 −19.479 −2.834 −6.159 1.00 12.35 1383 N ALA A 360 −18.303 −4.179 −4.862 1.00 11.57 1384 CA ALA A 360 −18.456 −3.323 −3.690 1.00 13.32 1385 CB ALA A 360 −17.789 −3.950 −2.471 1.00 9.99 1386 C ALA A 360 −17.891 −1.935 −3.935 1.00 13.88 1387 O ALA A 360 −18.503 −0.933 −3.544 1.00 15.74 1388 N LEU A 361 −16.727 −1.868 −4.586 1.00 15.15 1389 CA LEU A 361 −16.090 −0.577 −4.872 1.00 13.83 1390 CB LEU A 361 −14.648 −0.781 −5.362 1.00 14.59 1391 CG LEU A 361 −13.865 0.514 −5.634 1.00 14.93 1392 CD1 LEU A 361 −13.964 1.457 −4.437 1.00 12.88 1393 CD2 LEU A 361 −12.413 0.212 −5.963 1.00 14.12 1394 C LEU A 361 −16.872 0.311 −5.852 1.00 14.73 1395 O LEU A 361 −16.937 1.527 −5.666 1.00 16.81 1396 N ARG A 362 −17.418 −0.273 −6.920 1.00 14.29 1397 CA ARG A 362 −18.207 0.495 −7.883 1.00 13.27 1398 CB ARG A 362 −18.558 −0.331 −9.139 1.00 10.91 1399 CG ARG A 362 −19.257 0.531 −10.203 1.00 13.29 1400 CD ARG A 362 −19.613 −0.151 −11.539 1.00 14.88 1401 NE ARG A 362 −21.047 −0.012 −11.847 1.00 17.88 1402 CZ ARG A 362 −21.556 0.753 −12.804 1.00 15.28 1403 NH1 ARG A 362 −20.792 1.473 −13.592 1.00 15.01 1404 NH2 ARG A 362 −22.856 0.812 −12.955 1.00 19.91 1405 C ARG A 362 −19.482 1.033 −7.197 1.00 14.05 1406 O ARG A 362 −19.781 2.220 −7.302 1.00 13.80 1407 N LEU A 363 −20.189 0.173 −6.463 1.00 11.82 1408 CA LEU A 363 −21.393 0.572 −5.748 1.00 12.71 1409 CB LEU A 363 −21.974 −0.603 −4.946 1.00 13.78 1410 CG LEU A 363 −23.326 −0.466 −4.220 1.00 14.50 1411 CD1 LEU A 363 −24.463 −0.468 −5.219 1.00 17.78 1412 CD2 LEU A 363 −23.551 −1.630 −3.300 1.00 13.85 1413 C LEU A 363 −21.051 1.663 −4.763 1.00 12.77 1414 O LEU A 363 −21.666 2.723 −4.752 1.00 13.96 1415 N TYR A 364 −20.076 1.394 −3.906 1.00 13.26 1416 CA TYR A 364 −19.711 2.364 −2.910 1.00 11.50 1417 CB TYR A 364 −18.690 1.782 −1.951 1.00 11.85 1418 CG TYR A 364 −18.336 2.740 −0.849 1.00 12.80 1419 CD1 TYR A 364 −17.235 3.582 −0.955 1.00 12.10 1420 CE1 TYR A 364 −16.937 4.501 0.042 1.00 15.58 1421 CD2 TYR A 364 −19.130 2.840 0.292 1.00 13.75 1422 CE2 TYR A 364 −18.837 3.751 1.293 1.00 14.21 1423 CZ TYR A 364 −17.742 4.580 1.164 1.00 15.51 1424 OH TYR A 364 −17.452 5.489 2.159 1.00 16.22 1425 C TYR A 364 −19.207 3.662 −3.520 1.00 13.59 1426 O TYR A 364 −19.641 4.742 −3.127 1.00 13.14 1427 N ALA A 365 −18.344 3.573 −4.523 1.00 13.63 1428 CA ALA A 365 −17.776 4.777 −5.129 1.00 14.25 1429 CB ALA A 365 −16.678 4.386 −6.123 1.00 13.92 1430 C ALA A 365 −18.819 5.670 −5.804 1.00 15.83 1431 O ALA A 365 −18.754 6.906 −5.718 1.00 15.28 1432 N ARG A 366 −19.766 5.030 −6.488 1.00 15.42 1433 CA ARG A 366 −20.821 5.725 −7.197 1.00 16.12 1434 CB ARG A 366 −21.476 4.802 −8.218 1.00 14.24 1435 CG ARG A 366 −20.693 4.672 −9.492 1.00 15.76 1436 CD ARG A 366 −21.317 3.702 −10.442 1.00 18.74 1437 NE ARG A 366 −22.579 4.166 −11.029 1.00 21.19 1438 CZ ARG A 366 −22.690 4.743 −12.223 1.00 21.09 1439 NH1 ARG A 366 −21.619 4.960 −12.975 1.00 22.65 1440 NH2 ARG A 366 −23.889 5.049 −12.691 1.00 20.53 1441 C ARG A 366 −21.878 6.287 −6.264 1.00 17.46 1442 O ARG A 366 −22.499 7.301 −6.569 1.00 18.75 1443 N ARG A 367 −22.127 5.598 −5.161 1.00 17.91 1444 CA ARG A 367 −23.121 6.042 −4.201 1.00 17.71 1445 CB ARG A 367 −23.335 4.950 −3.158 1.00 17.43 1446 CG ARG A 367 −24.125 5.398 −1.959 1.00 18.44 1447 CD ARG A 367 −24.749 4.220 −1.291 1.00 16.15 1448 NE ARG A 367 −23.772 3.378 −0.638 1.00 19.45 1449 CZ ARG A 367 −23.881 2.055 −0.557 1.00 21.49 1450 NH1 ARG A 367 −24.930 1.430 −1.101 1.00 21.68 1451 NH2 ARG A 367 −22.951 1.354 0.081 1.00 19.07 1452 C ARG A 367 −22.619 7.311 −3.534 1.00 18.59 1453 O ARG A 367 −23.312 8.329 −3.467 1.00 20.74 1454 N ARG A 368 −21.363 7.268 −3.119 1.00 18.65 1455 CA ARG A 368 −20.736 8.373 −2.432 1.00 17.71 1456 CB ARG A 368 −19.380 7.901 −1.930 1.00 18.88 1457 CG ARG A 368 −18.756 8.689 −0.815 1.00 20.07 1458 CD ARG A 368 −17.317 8.249 −0.655 1.00 22.34 1459 NE ARG A 368 −16.541 9.337 −0.093 1.00 25.45 1460 CZ ARG A 368 −15.396 9.791 −0.580 1.00 24.10 1461 NH1 ARG A 368 −14.838 9.248 −1.650 1.00 20.76 1462 NH2 ARG A 368 −14.869 10.874 −0.037 1.00 27.70 1463 C ARG A 368 −20.585 9.607 −3.326 1.00 19.09 1464 O ARG A 368 −20.765 10.740 −2.856 1.00 21.65 1465 N ARG A 369 −20.248 9.399 −4.605 1.00 18.12 1466 CA ARG A 369 −20.035 10.499 −5.557 1.00 17.85 1467 CB ARG A 369 −18.552 10.745 −5.768 1.00 15.91 1468 CG ARG A 369 −17.929 11.408 −4.596 1.00 20.93 1469 CD ARG A 369 −16.478 11.608 −4.843 1.00 25.15 1470 NE ARG A 369 −15.753 10.347 −4.897 1.00 27.05 1471 CZ ARG A 369 −14.428 10.267 −4.886 1.00 27.25 1472 NH1 ARG A 369 −13.714 11.386 −4.831 1.00 24.07 1473 NH2 ARG A 369 −13.822 9.078 −4.884 1.00 26.35 1474 C ARG A 369 −20.666 10.237 −6.893 1.00 17.61 1475 O ARG A 369 −19.982 9.958 −7.876 1.00 18.67 1476 N PRO A 370 −21.982 10.373 −6.967 1.00 19.44 1477 CD PRO A 370 −22.940 10.698 −5.900 1.00 18.51 1478 CA PRO A 370 −22.663 10.127 −8.236 1.00 21.92 1479 CB PRO A 370 −24.137 10.116 −7.832 1.00 21.07 1480 CG PRO A 370 −24.175 11.062 −6.690 1.00 20.65 1481 C PRO A 370 −22.365 11.231 −9.229 1.00 23.55 1482 O PRO A 370 −22.608 11.074 −10.416 1.00 26.73 1483 N SER A 371 −21.823 12.336 −8.727 1.00 25.11 1484 CA SER A 371 −21.484 13.520 −9.528 1.00 25.30 1485 CB SER A 371 −21.121 14.685 −8.578 1.00 26.75 1486 OG SER A 371 −20.649 15.845 −9.261 1.00 30.80 1487 C SER A 371 −20.329 13.265 −10.472 1.00 23.45 1488 O SER A 371 −20.108 14.028 −11.403 1.00 23.59 1489 N GLN A 372 −19.569 12.214 −10.187 1.00 22.79 1490 CA GLN A 372 −18.393 11.869 −10.970 1.00 22.67 1491 CB GLN A 372 −17.132 12.276 −10.209 1.00 24.31 1492 CG GLN A 372 −17.377 12.709 −8.784 1.00 26.56 1493 CD GLN A 372 −16.694 14.015 −8.465 1.00 28.02 1494 OE1 GLN A 372 −16.199 14.705 −9.358 1.00 28.95 1495 NE2 GLN A 372 −16.660 14.365 −7.189 1.00 26.49 1496 C GLN A 372 −18.335 10.395 −11.235 1.00 21.84 1497 O GLN A 372 −17.688 9.657 −10.501 1.00 22.77 1498 N PRO A 373 −18.983 9.942 −12.308 1.00 20.20 1499 CD PRO A 373 −19.885 10.662 −13.221 1.00 20.33 1500 CA PRO A 373 −18.961 8.514 −12.599 1.00 19.96 1501 CB PRO A 373 −20.107 8.353 −13.598 1.00 19.66 1502 CG PRO A 373 −20.089 9.650 −14.330 1.00 19.46 1503 C PRO A 373 −17.629 7.918 −13.078 1.00 20.26 1504 O PRO A 373 −17.522 6.697 −13.212 1.00 21.36 1505 N TYR A 374 −16.603 8.740 −13.299 1.00 18.89 1506 CA TYR A 374 −15.318 8.179 −13.724 1.00 17.90 1507 CB TYR A 374 −14.520 9.128 −14.608 1.00 18.18 1508 CG TYR A 374 −14.912 9.124 −16.066 1.00 19.54 1509 CD1 TYR A 374 −14.079 9.709 −17.034 1.00 20.63 1510 CE1 TYR A 374 −14.450 9.769 −18.378 1.00 18.60 1511 CD2 TYR A 374 −16.131 8.588 −16.485 1.00 19.14 1512 CE2 TYR A 374 −16.515 8.639 −17.821 1.00 20.11 1513 CZ TYR A 374 −15.676 9.230 −18.765 1.00 19.94 1514 OH TYR A 374 −16.071 9.277 −20.095 1.00 20.85 1515 C TYR A 374 −14.435 7.763 −12.566 1.00 17.56 1516 O TYR A 374 −13.324 7.315 −12.797 1.00 19.32 1517 N MET A 375 −14.905 7.884 −11.331 1.00 16.69 1518 CA MET A 375 −14.079 7.510 −10.191 1.00 15.81 1519 CB MET A 375 −14.723 7.952 −8.875 1.00 18.75 1520 CG MET A 375 −13.764 8.577 −7.863 1.00 20.46 1521 SD MET A 375 −12.641 9.746 −8.620 1.00 23.72 1522 CE MET A 375 −13.665 11.177 −8.979 1.00 19.74 1523 C MET A 375 −13.742 6.023 −10.168 1.00 16.19 1524 O MET A 375 −12.567 5.661 −10.044 1.00 15.08 1525 N PHE A 376 −14.737 5.153 −10.350 1.00 14.22 1526 CA PHE A 376 −14.464 3.721 −10.328 1.00 13.87 1527 CB PHE A 376 −15.750 2.908 −10.462 1.00 11.39 1528 CG PHE A 376 −15.526 1.418 −10.474 1.00 12.73 1529 CD1 PHE A 376 −15.875 0.660 −11.580 1.00 14.54 1530 CD2 PHE A 376 −14.988 0.764 −9.373 1.00 11.18 1531 CE1 PHE A 376 −15.692 −0.753 −11.587 1.00 13.62 1532 CE2 PHE A 376 −14.803 −0.632 −9.368 1.00 12.48 1533 CZ PHE A 376 −15.159 −1.390 −10.476 1.00 13.31 1534 C PHE A 376 −13.408 3.307 −11.387 1.00 13.55 1535 O PHE A 376 −12.387 2.714 −11.036 1.00 13.73 1536 N PRO A 377 −13.626 3.622 −12.686 1.00 13.63 1537 CD PRO A 377 −14.737 4.288 −13.395 1.00 13.32 1538 CA PRO A 377 −12.578 3.197 −13.623 1.00 13.92 1539 CB PRO A 377 −13.147 3.583 −14.986 1.00 12.78 1540 CG PRO A 377 −14.104 4.694 −14.685 1.00 13.40 1541 C PRO A 377 −11.239 3.884 −13.338 1.00 14.19 1542 O PRO A 377 −10.191 3.314 −13.605 1.00 13.68 1543 N ARG A 378 −11.283 5.087 −12.768 1.00 15.27 1544 CA ARG A 378 −10.064 5.819 −12.434 1.00 16.15 1545 CB ARG A 378 −10.359 7.257 −12.037 1.00 16.03 1546 CG ARG A 378 −10.320 8.219 −13.191 1.00 18.28 1547 CD ARG A 378 −10.250 9.656 −12.710 1.00 21.80 1548 NE ARG A 378 −11.568 10.272 −12.736 1.00 28.10 1549 CZ ARG A 378 −11.832 11.528 −12.366 1.00 32.50 1550 NH1 ARG A 378 −10.851 12.336 −11.937 1.00 33.14 1551 NH2 ARG A 378 −13.101 11.957 −12.359 1.00 33.17 1552 C ARG A 378 −9.305 5.127 −11.320 1.00 15.75 1553 O ARG A 378 −8.075 5.051 −11.353 1.00 17.14 1554 N MET A 379 −10.017 4.611 −10.333 1.00 14.20 1555 CA MET A 379 −9.327 3.918 −9.256 1.00 13.79 1556 CB MET A 379 −10.266 3.624 −8.110 1.00 13.15 1557 CG MET A 379 −10.710 4.856 −7.389 1.00 17.50 1558 SD MET A 379 −11.892 4.387 −6.123 1.00 24.25 1559 CE MET A 379 −13.367 4.407 −7.010 1.00 18.04 1560 C MET A 379 −8.745 2.629 −9.796 1.00 13.02 1561 O MET A 379 −7.642 2.238 −9.443 1.00 12.63 1562 N LEU A 380 −9.476 1.975 −10.676 1.00 13.77 1563 CA LEU A 380 −8.993 0.736 −11.233 1.00 15.71 1564 CB LEU A 380 −10.070 0.072 −12.099 1.00 17.34 1565 CG LEU A 380 −11.231 −0.615 −11.377 1.00 15.40 1566 CD1 LEU A 380 −11.922 −1.563 −12.337 1.00 13.31 1567 CD2 LEU A 380 −10.721 −1.378 −10.168 1.00 15.23 1568 C LEU A 380 −7.709 0.944 −12.027 1.00 18.33 1569 O LEU A 380 −6.749 0.196 −11.859 1.00 19.10 1570 N MET A 381 −7.667 1.997 −12.843 1.00 19.87 1571 CA MET A 381 −6.487 2.304 −13.644 1.00 19.87 1572 CB MET A 381 −6.766 3.474 −14.588 1.00 20.21 1573 CG MET A 381 −7.115 3.027 −15.985 1.00 21.49 1574 SD MET__ A 381 −7.724 4.398 −16.915 1.00 26.56 1575 CE MET A 381 −8.374 3.539 −18.385 1.00 23.61 1576 C MET A 381 −5.285 2.598 −12.767 1.00 18.73 1577 O MET A 381 −4.169 2.315 −13.160 1.00 19.04 1578 N LYS A 382 −5.525 3.122 −11.570 1.00 18.70 1579 CA LYS A 382 −4.477 3.431 −10.596 1.00 18.90 1580 CB LYS A 382 −5.077 4.177 −9.415 1.00 17.94 1581 CG LYS A 382 −5.189 5.654 −9.668 1.00 22.52 1582 CD LYS A 382 −3.796 6.299 −9.682 1.00 21.59 1583 CE LYS A 382 −3.825 7.655 −10.324 1.00 20.23 1584 NZ LYS A 382 −3.970 7.469 −11.795 1.00 25.12 1585 C LYS A 382 −3.748 2.201 −10.091 1.00 19.60 1586 O LYS A 382 −2.681 2.312 −9.491 1.00 20.41 1587 N ILE A 383 −4.352 1.031 −10.294 1.00 22.00 1588 CA ILE A 383 −3.773 −0.250 −9.882 1.00 21.94 1589 CB ILE A 383 −4.784 −1.419 −10.084 1.00 23.29 1590 CG2 ILE A 383 −4.073 −2.772 −10.000 1.00 23.62 1591 CG1 ILE A 383 −5.917 −1.351 −9.048 1.00 23.98 1592 CD1 ILE A 383 −6.944 −2.494 −9.167 1.00 22.99 1593 C ILE A 383 −2.576 −0.487 −10.790 1.00 22.86 1594 O ILE A 383 −1.527 −0.967 −10.362 1.00 23.21 1595 N THR A 384 −2.752 −0.141 −12.056 1.00 22.20 1596 CA THR A 384 −1.711 −0.280 −13.045 1.00 22.77 1597 CB THR A 384 −2.285 −0.035 −14.462 1.00 25.21 1598 OG1 THR A 384 −3.222 −1.089 −14.759 1.00 29.09 1599 CG2 THR A 384 −1.189 −0.031 −15.517 1.00 27.05 1600 C THR A 384 −0.548 0.639 −12.712 1.00 20.89 1601 O THR A 384 0.598 0.195 −12.707 1.00 22.32 1602 N ASP A 385 −0.833 1.877 −12.315 1.00 19.55 1603 CA ASP A 385 0.239 2.811 −11.961 1.00 19.49 1604 CB ASP A 385 −0.306 4.170 −11.546 1.00 20.91 1605 CG ASP A 385 −1.195 4.788 −12.575 1.00 22.67 1606 OD1 ASP A 385 −1.864 5.766 −12.208 1.00 24.97 1607 OD2 ASP A 385 −1.230 4.326 −13.733 1.00 23.80 1608 C ASP A 385 1.025 2.276 −10.778 1.00 19.01 1609 O ASP A 385 2.255 2.278 −10.778 1.00 18.96 1610 N LEU A 386 0.289 1.884 −9.743 1.00 19.05 1611 CA LEU A 386 0.854 1.338 −8.519 1.00 18.85 1612 CB LEU A 386 −0.296 0.983 −7.590 1.00 19.37 1613 CG LEU A 386 −0.096 0.569 −6.138 1.00 21.27 1614 CD1 LEU A 386 0.644 1.636 −5.344 1.00 19.99 1615 CD2 LEU A 386 −1.475 0.304 −5.541 1.00 20.99 1616 C LEU A 386 1.759 0.125 −8.787 1.00 19.60 1617 O LEU A 386 2.811 −0.037 −8.167 1.00 20.22 1618 N ARG A 387 1.373 −0.726 −9.724 1.00 20.25 1619 CA ARG A 387 2.193 −1.879 −10.026 1.00 20.24 1620 CB ARG A 387 1.397 −2.848 −10.888 1.00 23.00 1621 CG ARG A 387 2.009 −4.221 −11.044 1.00 28.55 1622 CD ARG A 387 1.746 −4.736 −12.457 1.00 32.13 1623 NE ARG A 387 1.966 −3.644 −13.412 1.00 34.51 1624 CZ ARG A 387 1.421 −3.570 −14.622 1.00 35.87 1625 NH1 ARG A 387 0.633 −4.546 −15.056 1.00 36.39 1626 NH2 ARG A 387 1.554 −2.457 −15.343 1.00 36.86 1627 C ARG A 387 3.486 −1.392 −10.715 1.00 19.97 1628 O ARG A 387 4.521 −2.029 −10.607 1.00 18.77 1629 N GLY A 388 3.447 −0.232 −11.369 1.00 18.70 1630 CA GLY A 388 4.650 0.299 −12.008 1.00 18.83 1631 C GLY A 388 5.674 0.921 −11.037 1.00 20.22 1632 O GLY A 388 6.893 0.833 −11.248 1.00 15.88 1633 N ILE A 389 5.179 1.591 −9.991 1.00 21.33 1634 CA ILE A 389 6.032 2.221 −8.970 1.00 21.20 1635 CB ILE A 389 5.229 3.280 −8.088 1.00 22.81 1636 CG2 ILE A 389 5.126 2.852 −6.639 1.00 23.64 1637 CG1 ILE A 389 5.883 4.666 −8.150 1.00 22.25 1638 CD1 ILE A 389 5.524 5.427 −9.378 1.00 21.83 1639 C ILE A 389 6.623 1.129 −8.083 1.00 19.67 1640 O ILE A 389 7.778 1.220 −7.705 1.00 19.23 1641 N SER A 390 5.848 0.082 −7.781 1.00 19.25 1642 CA SER A 390 6.333 −1.009 −6.935 1.00 19.04 1643 CB SER A 390 5.183 −1.882 −6.477 1.00 20.61 1644 OG SER A 390 4.339 −2.156 −7.562 1.00 26.93 1645 C SER A 390 7.407 −1.848 −7.612 1.00 18.57 1646 O SER A 390 8.300 −2.389 −6.946 1.00 16.78 1647 N THR A 391 7.326 −1.960 −8.931 1.00 18.45 1648 CA THR A 391 8.335 −2.696 −9.666 1.00 20.13 1649 CB THR A 391 7.930 −2.914 −11.066 1.00 21.93 1650 OG1 THR A 391 7.487 −1.673 −11.621 1.00 28.62 1651 CG2 THR A 391 6.806 −3.897 −11.099 1.00 25.50 1652 C THR A 391 9.587 −1.863 −9.624 1.00 20.07 1653 O THR A 391 10.685 −2.401 −9.524 1.00 20.66 1654 N LYS A 392 9.431 −0.543 −9.669 1.00 19.69 1655 CA LYS A 392 10.587 0.332 −9.550 1.00 20.05 1656 CB LYS A 392 10.250 1.755 −9.985 1.00 20.70 1657 CG LYS A 392 10.362 1.951 −11.486 1.00 22.58 1658 CD LYS A 392 9.843 3.311 −11.846 1.00 24.75 1659 CE LYS A 392 9.289 3.374 −13.257 1.00 26.63 1660 NZ LYS A 392 8.295 4.511 −13.315 1.00 28.55 1661 C LYS A 392 11.098 0.282 −8.094 1.00 20.04 1662 O LYS A 392 12.300 0.422 −7.835 1.00 20.48 1663 N GLY A 393 10.186 0.052 −7.151 1.00 18.91 1664 CA GLY A 393 10.566 −0.091 −5.753 1.00 17.90 1665 C GLY A 393 11.427 −1.338 −5.601 1.00 18.64 1666 O GLY A 393 12.451 −1.311 −4.925 1.00 20.47 1667 N ALA A 394 11.040 −2.420 −6.279 1.00 19.69 1668 CA ALA A 394 11.761 −3.689 −6.264 1.00 19.72 1669 CB ALA A 394 11.011 −4.696 −7.105 1.00 21.54 1670 C ALA A 394 13.181 −3.547 −6.789 1.00 21.85 1671 O ALA A 394 14.104 −4.184 −6.282 1.00 22.78 1672 N GLU A 395 13.337 −2.763 −7.859 1.00 24.10 1673 CA GLU A 395 14.640 −2.487 −8.482 1.00 24.51 1674 CB GLU A 395 14.466 −1.672 −9.774 1.00 26.19 1675 CG GLU A 395 13.910 −2.494 −10.949 1.00 31.31 1676 CD GLU A 395 13.717 −1.699 −12.256 1.00 33.90 1677 OE1 GLU A 395 13.984 −0.470 −12.282 1.00 33.65 1678 OE2 GLU A 395 13.288 −2.322 −13.263 1.00 35.18 1679 C GLU A 395 15.515 −1.719 −7.503 1.00 23.81 1680 O GLU A 395 16.715 −1.919 −7.422 1.00 23.93 1681 N ARG A 396 14.884 −0.851 −6.740 1.00 23.94 1682 CA ARG A 396 15.574 −0.056 −5.747 1.00 23.55 1683 CB ARG A 396 14.628 1.029 −5.216 1.00 23.99 1684 CG ARG A 396 15.199 1.891 −4.115 1.00 21.36 1685 CD ARG A 396 16.298 2.745 −4.634 1.00 21.46 1686 NE ARG A 396 16.917 3.454 −3.534 1.00 24.01 1687 CZ ARG A 396 18.222 3.656 −3.406 1.00 23.81 1688 NH1 ARG A 396 19.078 3.195 −4.309 1.00 23.29 1689 NH2 ARG A 396 18.661 4.380 −2.391 1.00 24.32 1690 C ARG A 396 16.068 −0.922 −4.594 1.00 23.72 1691 O ARG A 396 17.049 −0.590 −3.947 1.00 24.55 1692 N ALA A 397 15.368 −2.009 −4.299 1.00 24.28 1693 CA ALA A 397 15.783 −2.872 −3.205 1.00 23.74 1694 CB ALA A 397 14.741 −3.925 −2.933 1.00 24.49 1695 C ALA A 397 17.108 −3.507 −3.576 1.00 24.26 1696 O ALA A 397 17.943 −3.779 −2.721 1.00 24.86 1697 N ILE A 398 17.308 −3.713 −4.870 1.00 26.18 1698 CA ILE A 398 18.547 −4.291 −5.384 1.00 27.23 1699 CB ILE A 398 18.516 −4.412 −6.927 1.00 27.41 1700 CG2 ILE A 398 19.685 −5.238 −7.416 1.00 28.46 1701 CG1 ILE A 398 17.236 −5.109 −7.369 1.00 28.19 1702 CD1 ILE A 398 16.999 −6.382 −6.637 1.00 29.70 1703 C ILE A 398 19.731 −3.406 −4.977 1.00 27.78 1704 O ILE A 398 20.534 −3.792 −4.100 1.00 29.44 1705 N THR A 399 19.819 −2.205 −5.564 1.00 27.08 1706 CA THR A 399 20.908 −1.293 −5.246 1.00 26.37 1707 CB THR A 399 20.785 0.016 −5.994 1.00 26.11 1708 OG1 THR A 399 19.421 0.414 −6.022 1.00 28.83 1709 CG2 THR A 399 21.235 −0.161 −7.405 1.00 29.58 1710 C THR A 399 20.988 −1.049 −3.755 1.00 25.99 1711 O THR A 399 22.079 −1.025 −3.186 1.00 26.23 1712 N LEU A 400 19.830 −0.935 −3.110 1.00 27.37 1713 CA LEU A 400 19.800 −0.723 −1.673 1.00 28.07 1714 CB LEU A 400 18.373 −0.640 −1.149 1.00 27.98 1715 CG LEU A 400 17.955 0.753 −0.667 1.00 28.69 1716 CD1 LEU A 400 16.547 0.702 −0.104 1.00 26.86 1717 CD2 LEU A 400 18.932 1.293 0.368 1.00 28.98 1718 C LEU A 400 20.527 −1.862 −0.978 1.00 28.53 1719 O LEU A 400 21.290 −1.630 −0.047 1.00 28.85 1720 N LYS A 401 20.327 −3.087 −1.447 1.00 29.09 1721 CA LYS A 401 21.000 −4.220 −0.839 1.00 29.71 1722 CB LYS A 401 20.666 −5.515 −1.561 1.00 29.44 1723 CG LYS A 401 19.240 −5.946 −1.356 1.00 31.48 1724 CD LYS A 401 18.938 −7.290 −1.989 1.00 32.04 1725 CE LYS A 401 17.464 −7.374 −2.329 1.00 32.74 1726 NZ LYS A 401 17.137 −6.437 −3.437 1.00 34.16 1727 C LYS A 401 22.494 −3.980 −0.852 1.00 29.99 1728 O LYS A 401 23.164 −4.170 0.153 1.00 29.22 1729 N MET A 402 23.007 −3.486 −1.971 1.00 31.43 1730 CA MET A 402 24.434 −3.213 −2.065 1.00 31.78 1731 CB MET A 402 24.795 −2.716 −3.463 1.00 34.68 1732 CG MET A 402 24.275 −3.512 −4.648 1.00 36.65 1733 SD MET A 402 24.622 −2.451 −6.136 1.00 42.97 1734 CE MET A 402 23.219 −2.873 −7.264 1.00 38.36 1735 C MET A 402 24.849 −2.125 −1.057 1.00 31.44 1736 O MET A 402 25.951 −2.187 −0.496 1.00 32.49 1737 N GLU A 403 23.970 −1.144 −0.832 1.00 29.62 1738 CA GLU A 403 24.246 −0.011 0.058 1.00 28.02 1739 CB GLU A 403 23.455 1.205 −0.415 1.00 29.18 1740 CG GLU A 403 23.567 1.495 −1.923 1.00 33.06 1741 CD GLU A 403 22.618 2.607 −2.397 1.00 35.19 1742 OE1 GLU A 403 22.053 3.320 −1.530 1.00 36.93 1743 OE2 GLU A 403 22.429 2.770 −3.634 1.00 35.87 1744 C GLU A 403 24.098 −0.145 1.592 1.00 28.19 1745 O GLU A 403 24.645 0.678 2.335 1.00 27.87 1746 N ILE A 404 23.336 −1.116 2.091 1.00 27.14 1747 CA ILE A 404 23.200 −1.256 3.542 1.00 25.57 1748 CB ILE A 404 21.799 −1.798 3.970 1.00 24.57 1749 CG2 ILE A 404 20.743 −0.754 3.715 1.00 22.48 1750 CG1 ILE A 404 21.495 −3.117 3.253 1.00 25.32 1751 CD1 ILE A 404 20.172 −3.770 3.626 1.00 24.30 1752 C ILE A 404 24.334 −2.124 4.097 1.00 25.35 1753 O ILE A 404 24.850 −3.003 3.408 1.00 23.29 1754 N PRO A 405 24.710 −1.904 5.370 1.00 26.12 1755 CD PRO A 405 24.046 −0.965 6.289 1.00 26.59 1756 CA PRO A 405 25.782 −2.618 6.072 1.00 28.17 1757 CB PRO A 405 26.115 −1.661 7.203 1.00 28.59 1758 CG PRO A 405 24.737 −1.254 7.632 1.00 28.60 1759 C PRO A 405 25.365 −3.949 6.648 1.00 29.91 1760 O PRO A 405 26.129 −4.564 7.402 1.00 30.96 1761 N GLY A 406 24.124 −4.337 6.387 1.00 30.15 1762 CA GLY A 406 23.629 −5.599 6.880 1.00 30.34 1763 C GLY A 406 22.572 −6.101 5.927 1.00 30.21 1764 O GLY A 406 22.231 −5.395 4.973 1.00 30.98 1765 N PRO A 407 22.049 −7.318 6.131 1.00 29.00 1766 CD PRO A 407 22.190 −8.214 7.299 1.00 30.16 1767 CA PRO A 407 21.022 −7.804 5.215 1.00 27.77 1768 CB PRO A 407 20.907 −9.265 5.613 1.00 29.21 1769 CG PRO A 407 21.015 −9.169 7.136 1.00 29.55 1770 C PRO A 407 19.749 −7.047 5.567 1.00 26.71 1771 O PRO A 407 19.641 −6.483 6.678 1.00 27.29 1772 N MET A 408 18.815 −6.962 4.623 1.00 24.49 1773 CA MET A 408 17.553 −6.288 4.913 1.00 22.84 1774 CB MET A 408 16.747 −6.104 3.622 1.00 24.24 1775 CG MET A 408 17.429 −5.294 2.556 1.00 23.24 1776 SD MET A 408 16.179 −4.677 1.436 1.00 24.38 1777 CE MET A 408 16.887 −3.079 1.097 1.00 25.22 1778 C MET A 408 16.752 −7.153 5.909 1.00 20.40 1779 O MET A 408 17.020 −8.341 6.049 1.00 18.50 1780 N PRO A 409 15.801 −6.558 6.653 1.00 19.49 1781 CD PRO A 409 15.501 −5.124 6.731 1.00 18.87 1782 CA PRO A 409 14.982 −7.300 7.616 1.00 18.15 1783 CB PRO A 409 13.928 −6.280 7.975 1.00 19.10 1784 CG PRO A 409 14.729 −5.031 8.009 1.00 19.00 1785 C PRO A 409 14.381 −8.520 6.928 1.00 17.75 1786 O PRO A 409 13.974 −8.448 5.770 1.00 15.42 1787 N PRO A 410 14.238 −9.632 7.657 1.00 17.26 1788 CD PRO A 410 14.390 −9.731 9.120 1.00 16.92 1789 CA PRO A 410 13.695 −10.877 7.090 1.00 17.78 1790 CB PRO A 410 13.732 −11.844 8.287 1.00 18.05 1791 CG PRO A 410 13.532 −10.922 9.468 1.00 18.52 1792 C PRO A 410 12.335 −10.827 6.384 1.00 18.59 1793 O PRO A 410 12.167 −11.427 5.315 1.00 19.35 1794 N LEU A 411 11.365 −10.124 6.957 1.00 18.39 1795 CA LEU A 411 10.054 −10.045 6.335 1.00 17.77 1796 CB LEU A 411 9.011 −9.489 7.297 1.00 17.32 1797 CG LEU A 411 8.751 −10.391 8.510 1.00 18.93 1798 CD1 LEU A 411 7.396 −10.095 9.093 1.00 15.54 1799 CD2 LEU A 411 8.822 −11.857 8.104 1.00 19.18 1800 C LEU A 411 10.112 −9.237 5.065 1.00 17.72 1801 O LEU A 411 9.379 −9.509 4.114 1.00 19.61 1802 N ILE A 412 11.012 −8.262 5.030 1.00 17.15 1803 CA ILE A 412 11.186 −7.433 3.846 1.00 15.82 1804 CB ILE A 412 12.084 −6.227 4.169 1.00 15.58 1805 CG2 ILE A 412 12.498 −5.522 2.909 1.00 15.37 1806 CG1 ILE A 412 11.328 −5.282 5.106 1.00 13.65 1807 CD1 ILE A 412 12.070 −4.078 5.484 1.00 14.79 1808 C ILE A 412 11.782 −8.300 2.740 1.00 16.91 1809 O ILE A 412 11.398 −8.200 1.578 1.00 17.37 1810 N ARG A 413 12.678 −9.205 3.112 1.00 18.84 1811 CA ARG A 413 13.303 −10.081 2.134 1.00 19.44 1812 CB ARG A 413 14.493 −10.827 2.734 1.00 21.68 1813 CG ARG A 413 15.609 −9.923 3.211 1.00 23.67 1814 CD ARG A 413 16.813 −10.744 3.637 1.00 24.61 1815 NE ARG A 413 17.413 −11.353 2.458 1.00 26.77 1816 CZ ARG A 413 18.364 −12.275 2.487 1.00 27.71 1817 NH1 ARG A 413 18.840 −12.700 3.648 1.00 25.48 1818 NH2 ARG A 413 18.821 −12.786 1.347 1.00 29.94 1819 C ARG A 413 12.307 −11.071 1.579 1.00 18.31 1820 O ARG A 413 12.371 −11.421 0.405 1.00 19.96 1821 N GLU A 414 11.422 −11.562 2.427 1.00 17.94 1822 CA GLU A 414 10.406 −12.501 1.987 1.00 18.28 1823 CB GLU A 414 9.504 −12.894 3.156 1.00 19.64 1824 CG GLU A 414 10.039 −14.034 3.995 1.00 19.89 1825 CD GLU A 414 10.209 −15.310 3.186 1.00 21.06 1826 OE1 GLU A 414 9.301 −15.648 2.385 1.00 20.02 1827 OE2 GLU A 414 11.254 −15.970 3.354 1.00 22.16 1828 C GLU A 414 9.550 −11.835 0.939 1.00 19.63 1829 O GLU A 414 9.261 −12.406 −0.098 1.00 19.16 1830 N MET A 415 9.170 −10.593 1.209 1.00 21.32 1831 CA MET A 415 8.322 −9.846 0.299 1.00 22.45 1832 CB MET A 415 7.998 −8.490 0.896 1.00 21.92 1833 CG MET A 415 7.351 −7.563 −0.103 1.00 22.95 1834 SD MET A 415 7.180 −6.000 0.638 1.00 20.83 1835 CE MET A 415 8.882 −5.467 0.380 1.00 18.97 1836 C MET A 415 8.903 −9.656 −1.085 1.00 23.05 1837 O MET A 415 8.177 −9.717 −2.092 1.00 22.53 1838 N LEU A 416 10.210 −9.395 −1.125 1.00 24.28 1839 CA LEU A 416 10.928 −9.167 −2.384 1.00 24.33 1840 CB LEU A 416 12.128 −8.217 −2.171 1.00 24.70 1841 CG LEU A 416 11.855 −6.810 −1.591 1.00 23.04 1842 CD1 LEU A 416 13.139 −6.167 −1.129 1.00 24.40 1843 CD2 LEU A 416 11.172 −5.936 −2.608 1.00 23.10 1844 C LEU A 416 11.347 −10.440 −3.127 1.00 25.18 1845 O LEU A 416 12.048 −10.363 −4.122 1.00 25.92 1846 N GLU A 417 11.010 −11.614 −2.597 1.00 27.78 1847 CA GLU A 417 11.301 −12.861 −3.310 1.00 29.15 1848 CB GLU A 417 11.736 −14.029 −2.393 1.00 28.98 1849 CG GLU A 417 12.042 −15.289 −3.239 1.00 31.22 1850 CD GLU A 417 12.651 −16.473 −2.495 1.00 31.45 1851 OE1 GLU A 417 11.909 −17.412 −2.138 1.00 33.15 1852 OE2 GLU A 417 13.883 −16.507 −2.327 1.00 30.59 1853 C GLU A 417 9.959 −13.188 −3.950 1.00 29.66 1854 O GLU A 417 9.096 −13.773 −3.316 1.00 30.13 1855 N ASN A 418 9.767 −12.772 −5.194 1.00 32.47 1856 CA ASN A 418 8.496 −13.017 −5.866 1.00 34.15 1857 CB ASN A 418 7.432 −12.067 −5.300 1.00 35.46 1858 CG ASN A 418 7.710 −10.605 −5.629 1.00 34.92 1859 OD1 ASN A 418 8.097 −9.833 −4.759 1.00 35.44 1860 ND2 ASN A 418 7.483 −10.215 −6.878 1.00 35.03 1861 C ASN A 418 8.570 −12.814 −7.381 1.00 35.01 1862 O ASN A 418 9.326 −11.960 −7.853 1.00 34.95 1863 N PRO A 419 7.773 −13.591 −8.152 1.00 34.87 1864 CD PRO A 419 6.936 −14.692 −7.644 1.00 35.71 1865 CA PRO A 419 7.697 −13.533 −9.615 1.00 35.66 1866 CB PRO A 419 6.731 −14.682 −9.953 1.00 35.26 1867 CG PRO A 419 6.908 −15.642 −8.817 1.00 35.03 1868 C PRO A 419 7.078 −12.196 −10.024 1.00 36.89 1869 OT1 PRO A 419 6.055 −11.826 −9.383 1.00 38.65 1870 OT2 PRO A 419 7.604 −11.540 −10.960 1.00 37.30 1871 C1 REA A 500 11.617 0.766 −0.974 1.00 22.98 1872 C2 REA A 500 12.711 −0.165 −1.544 1.00 23.95 1873 C3 REA A 500 13.522 −0.885 −0.510 1.00 23.03 1874 C4 REA A 500 12.706 −1.723 0.439 1.00 21.73 1875 C5 REA A 500 11.296 −1.155 0.709 1.00 22.75 1876 C6 REA A 500 10.782 −0.041 0.060 1.00 22.00 1877 C7 REA A 500 9.422 0.493 0.254 1.00 21.60 1878 C8 REA A 500 8.791 0.679 1.424 1.00 20.23 1879 C9 REA A 500 7.449 1.141 1.670 1.00 17.02 1880 C10 REA A 500 7.099 1.229 2.962 1.00 17.58 1881 C11 REA A 500 5.821 1.637 3.462 1.00 18.07 1882 C12 REA A 500 5.727 1.752 4.782 1.00 19.51 1883 C13 REA A 500 4.536 2.128 5.483 1.00 21.00 1884 C14 REA A 500 4.647 2.258 6.811 1.00 21.05 1885 C15 REA A 500 3.667 2.658 7.784 1.00 20.02 1886 C16 REA A 500 10.701 1.240 −2.118 1.00 24.14 1887 C17 REA A 500 12.306 1.974 −0.296 1.00 21.99 1888 C18 REA A 500 10.607 −2.018 1.769 1.00 21.60 1889 C19 REA A 500 6.509 1.505 0.524 1.00 13.38 1890 C20 REA A 500 3.231 2.378 4.699 1.00 22.04 1891 O1 REA A 500 4.026 2.789 8.938 1.00 21.58 1892 O2 REA A 500 2.508 2.885 7.461 1.00 23.03

[0379] It will be understood that various details of the invention can be changed without departing from the scope of the invention. Furthermore, the foregoing description is for the purpose of illustration only, and not for the purpose of limitation-the invention being defined by the claims.

1 10 1 1528 DNA Homo sapiens CDS (36)..(1379) 1 cagtgccttg gtaatgacca gggctccaga aagag atg tcc ttg tgg ctg ggg 53 Met Ser Leu Trp Leu Gly 1 5 gcc cct gtg cct gac att cct cct gac tct gcg gtg gag ctg tgg aag 101 Ala Pro Val Pro Asp Ile Pro Pro Asp Ser Ala Val Glu Leu Trp Lys 10 15 20 cca ggc gca cag gat gca agc agc cag gcc cag gga ggc agc agc tgc 149 Pro Gly Ala Gln Asp Ala Ser Ser Gln Ala Gln Gly Gly Ser Ser Cys 25 30 35 atc ctc aga gag gaa gcc agg atg ccc cac tct gct ggg ggt act gca 197 Ile Leu Arg Glu Glu Ala Arg Met Pro His Ser Ala Gly Gly Thr Ala 40 45 50 ggg gtg ggg ctg gag gct gca gag ccc aca gcc ctg ctc acc agg gca 245 Gly Val Gly Leu Glu Ala Ala Glu Pro Thr Ala Leu Leu Thr Arg Ala 55 60 65 70 gag ccc cct tca gaa ccc aca gag atc cgt cca caa aag cgg aaa aag 293 Glu Pro Pro Ser Glu Pro Thr Glu Ile Arg Pro Gln Lys Arg Lys Lys 75 80 85 ggg cca gcc ccc aaa atg ctg ggg aac gag cta tgc agc gtg tgt ggg 341 Gly Pro Ala Pro Lys Met Leu Gly Asn Glu Leu Cys Ser Val Cys Gly 90 95 100 gac aag gcc tcg ggc ttc cac tac aat gtt ctg agc tgc gag ggc tgc 389 Asp Lys Ala Ser Gly Phe His Tyr Asn Val Leu Ser Cys Glu Gly Cys 105 110 115 aag gga ttc ttc cgc cgc agc gtc atc aag gga gcg cac tac atc tgc 437 Lys Gly Phe Phe Arg Arg Ser Val Ile Lys Gly Ala His Tyr Ile Cys 120 125 130 cac agt ggc ggc cac tgc ccc atg gac acc tac atg cgt cgc aag tgc 485 His Ser Gly Gly His Cys Pro Met Asp Thr Tyr Met Arg Arg Lys Cys 135 140 145 150 cag gag tgt cgg ctt cgc aaa tgc cgt cag gct ggc atg cgg gag gag 533 Gln Glu Cys Arg Leu Arg Lys Cys Arg Gln Ala Gly Met Arg Glu Glu 155 160 165 tgt gtc ctg tca gaa gaa cag atc cgc ctg aag aaa ctg aag cgg caa 581 Cys Val Leu Ser Glu Glu Gln Ile Arg Leu Lys Lys Leu Lys Arg Gln 170 175 180 gag gag gaa cag gct cat gcc aca tcc ttg ccc ccc agg cgt tcc tca 629 Glu Glu Glu Gln Ala His Ala Thr Ser Leu Pro Pro Arg Arg Ser Ser 185 190 195 ccc ccc caa atc ctg ccc cag ctc agc ccg gaa caa ctg ggc atg atc 677 Pro Pro Gln Ile Leu Pro Gln Leu Ser Pro Glu Gln Leu Gly Met Ile 200 205 210 gag aag ctc gtc gct gcc cag caa cag tgt aac cgg cgc tcc ttt tct 725 Glu Lys Leu Val Ala Ala Gln Gln Gln Cys Asn Arg Arg Ser Phe Ser 215 220 225 230 gac cgg ctt cga gtc acg cct tgg ccc atg gca cca gat ccc cat agc 773 Asp Arg Leu Arg Val Thr Pro Trp Pro Met Ala Pro Asp Pro His Ser 235 240 245 cgg gag gcc cgt cag cag cgc ttt gcc cac ttc act gag ctg gcc atc 821 Arg Glu Ala Arg Gln Gln Arg Phe Ala His Phe Thr Glu Leu Ala Ile 250 255 260 gtc tct gtg cag gag ata gtt gac ttt gct aaa cag cta ccc ggc ttc 869 Val Ser Val Gln Glu Ile Val Asp Phe Ala Lys Gln Leu Pro Gly Phe 265 270 275 ctg cag ctc agc cgg gag gac cag att gcc ctg ctg aag acc tct gcg 917 Leu Gln Leu Ser Arg Glu Asp Gln Ile Ala Leu Leu Lys Thr Ser Ala 280 285 290 atc gag gtg atg ctt ctg gag aca tct cgg agg tac aac cct ggg agt 965 Ile Glu Val Met Leu Leu Glu Thr Ser Arg Arg Tyr Asn Pro Gly Ser 295 300 305 310 gag agt atc acc ttc ctc aag gat ttc agt tat aac cgg gaa gac ttt 1013 Glu Ser Ile Thr Phe Leu Lys Asp Phe Ser Tyr Asn Arg Glu Asp Phe 315 320 325 gcc aaa gca ggg ctg caa gtg gaa ttc atc aac ccc atc ttc gag ttc 1061 Ala Lys Ala Gly Leu Gln Val Glu Phe Ile Asn Pro Ile Phe Glu Phe 330 335 340 tcc agg gcc atg aat gag ctg caa ctc aat gat gcc gag ttt gcc ttg 1109 Ser Arg Ala Met Asn Glu Leu Gln Leu Asn Asp Ala Glu Phe Ala Leu 345 350 355 ctc att gct atc agc atc ttc tct gca gac cgg ccc aac gtg cag gac 1157 Leu Ile Ala Ile Ser Ile Phe Ser Ala Asp Arg Pro Asn Val Gln Asp 360 365 370 cag ctc cag gtg gag agg ctg cag cac aca tat gtg gaa gcc ctg cat 1205 Gln Leu Gln Val Glu Arg Leu Gln His Thr Tyr Val Glu Ala Leu His 375 380 385 390 gcc tac gtc tcc atc cac cat ccc cat gac cga ctg atg ttc cca cgg 1253 Ala Tyr Val Ser Ile His His Pro His Asp Arg Leu Met Phe Pro Arg 395 400 405 atg cta atg aaa ctg gtg agc ctc cgg acc ctg agc agc gtc cac tca 1301 Met Leu Met Lys Leu Val Ser Leu Arg Thr Leu Ser Ser Val His Ser 410 415 420 gag caa gtg ttt gca ctg cgt ctg cag gac aaa aag ctc cca ccg ctg 1349 Glu Gln Val Phe Ala Leu Arg Leu Gln Asp Lys Lys Leu Pro Pro Leu 425 430 435 ctc tct gag atc tgg gat gtg cac gaa tga ctgttctgtc cccatatttt 1399 Leu Ser Glu Ile Trp Asp Val His Glu 440 445 ctgttttctt ggccggatgg ctgaggcctg gtggctgcct cctagaagtg gaacagactg 1459 agaagggcaa acattcctgg gagctgggca aggagatcct cccgtggcat taaaagagag 1519 tcaaagggt 1528 2 447 PRT Homo sapiens 2 Met Ser Leu Trp Leu Gly Ala Pro Val Pro Asp Ile Pro Pro Asp Ser 1 5 10 15 Ala Val Glu Leu Trp Lys Pro Gly Ala Gln Asp Ala Ser Ser Gln Ala 20 25 30 Gln Gly Gly Ser Ser Cys Ile Leu Arg Glu Glu Ala Arg Met Pro His 35 40 45 Ser Ala Gly Gly Thr Ala Gly Val Gly Leu Glu Ala Ala Glu Pro Thr 50 55 60 Ala Leu Leu Thr Arg Ala Glu Pro Pro Ser Glu Pro Thr Glu Ile Arg 65 70 75 80 Pro Gln Lys Arg Lys Lys Gly Pro Ala Pro Lys Met Leu Gly Asn Glu 85 90 95 Leu Cys Ser Val Cys Gly Asp Lys Ala Ser Gly Phe His Tyr Asn Val 100 105 110 Leu Ser Cys Glu Gly Cys Lys Gly Phe Phe Arg Arg Ser Val Ile Lys 115 120 125 Gly Ala His Tyr Ile Cys His Ser Gly Gly His Cys Pro Met Asp Thr 130 135 140 Tyr Met Arg Arg Lys Cys Gln Glu Cys Arg Leu Arg Lys Cys Arg Gln 145 150 155 160 Ala Gly Met Arg Glu Glu Cys Val Leu Ser Glu Glu Gln Ile Arg Leu 165 170 175 Lys Lys Leu Lys Arg Gln Glu Glu Glu Gln Ala His Ala Thr Ser Leu 180 185 190 Pro Pro Arg Arg Ser Ser Pro Pro Gln Ile Leu Pro Gln Leu Ser Pro 195 200 205 Glu Gln Leu Gly Met Ile Glu Lys Leu Val Ala Ala Gln Gln Gln Cys 210 215 220 Asn Arg Arg Ser Phe Ser Asp Arg Leu Arg Val Thr Pro Trp Pro Met 225 230 235 240 Ala Pro Asp Pro His Ser Arg Glu Ala Arg Gln Gln Arg Phe Ala His 245 250 255 Phe Thr Glu Leu Ala Ile Val Ser Val Gln Glu Ile Val Asp Phe Ala 260 265 270 Lys Gln Leu Pro Gly Phe Leu Gln Leu Ser Arg Glu Asp Gln Ile Ala 275 280 285 Leu Leu Lys Thr Ser Ala Ile Glu Val Met Leu Leu Glu Thr Ser Arg 290 295 300 Arg Tyr Asn Pro Gly Ser Glu Ser Ile Thr Phe Leu Lys Asp Phe Ser 305 310 315 320 Tyr Asn Arg Glu Asp Phe Ala Lys Ala Gly Leu Gln Val Glu Phe Ile 325 330 335 Asn Pro Ile Phe Glu Phe Ser Arg Ala Met Asn Glu Leu Gln Leu Asn 340 345 350 Asp Ala Glu Phe Ala Leu Leu Ile Ala Ile Ser Ile Phe Ser Ala Asp 355 360 365 Arg Pro Asn Val Gln Asp Gln Leu Gln Val Glu Arg Leu Gln His Thr 370 375 380 Tyr Val Glu Ala Leu His Ala Tyr Val Ser Ile His His Pro His Asp 385 390 395 400 Arg Leu Met Phe Pro Arg Met Leu Met Lys Leu Val Ser Leu Arg Thr 405 410 415 Leu Ser Ser Val His Ser Glu Gln Val Phe Ala Leu Arg Leu Gln Asp 420 425 430 Lys Lys Leu Pro Pro Leu Leu Ser Glu Ile Trp Asp Val His Glu 435 440 445 3 2010 DNA Homo sapiens CDS (245)..(1630) 3 caagaagtgg cgaagttacc tttgagggta tttgagtagc ggcggtgtgt caggggctaa 60 agaggaggac gaagaaaagc agagcaaggg aacccagggc aacaggagta gttcactccg 120 cgagaggccg tccacgagac ccccgcgcgc aggcatgagc cccgcccccc acgcatgagc 180 cccgcccccc gctgttgctt ggagaggggc gggacctgga gagaggctgc tccgtgaccc 240 cacc atg tcc tct cct acc acg agt tcc ctg gat acc ccc ctg cct gga 289 Met Ser Ser Pro Thr Thr Ser Ser Leu Asp Thr Pro Leu Pro Gly 1 5 10 15 aat ggc ccc cct cag cct ggc gcc cct tct tct tca ccc act gta aag 337 Asn Gly Pro Pro Gln Pro Gly Ala Pro Ser Ser Ser Pro Thr Val Lys 20 25 30 gag gag ggt ccg gag ccg tgg ccc ggg ggt ccg gac cct gat gtc cca 385 Glu Glu Gly Pro Glu Pro Trp Pro Gly Gly Pro Asp Pro Asp Val Pro 35 40 45 ggc act gat gag gcc agc tca gcc tgc agc aca gac tgg gtc atc cca 433 Gly Thr Asp Glu Ala Ser Ser Ala Cys Ser Thr Asp Trp Val Ile Pro 50 55 60 gat ccc gaa gag gaa cca gag cgc aag cga aag aag ggc cca gcc ccg 481 Asp Pro Glu Glu Glu Pro Glu Arg Lys Arg Lys Lys Gly Pro Ala Pro 65 70 75 aag atg ctg ggc cac gag ctt tgc cgt gtc tgt ggg gac aag gcc tcc 529 Lys Met Leu Gly His Glu Leu Cys Arg Val Cys Gly Asp Lys Ala Ser 80 85 90 95 ggc ttc cac tac aac gtg ctc agc tgc gaa ggc tgc aag ggc ttc ttc 577 Gly Phe His Tyr Asn Val Leu Ser Cys Glu Gly Cys Lys Gly Phe Phe 100 105 110 cgg cgc agt gtg gtc cgt ggt ggg gcc agg cgc tat gcc tgc cgg ggt 625 Arg Arg Ser Val Val Arg Gly Gly Ala Arg Arg Tyr Ala Cys Arg Gly 115 120 125 ggc gga acc tgc cag atg gac gct ttc atg cgg cgc aag tgc cag cag 673 Gly Gly Thr Cys Gln Met Asp Ala Phe Met Arg Arg Lys Cys Gln Gln 130 135 140 tgc cgg ctg cgc aag tgc aag gag gca ggg atg agg gag cag tgc gtc 721 Cys Arg Leu Arg Lys Cys Lys Glu Ala Gly Met Arg Glu Gln Cys Val 145 150 155 ctt tct gaa gaa cag atc cgg aag aag aag att cgg aaa cag cag cag 769 Leu Ser Glu Glu Gln Ile Arg Lys Lys Lys Ile Arg Lys Gln Gln Gln 160 165 170 175 cag gag tca cag tca cag tcg cag tca cct gtg ggg ccg cag ggc agc 817 Gln Glu Ser Gln Ser Gln Ser Gln Ser Pro Val Gly Pro Gln Gly Ser 180 185 190 agc agc tca gcc tct ggg cct ggg gct tcc cct ggt gga tct gag gca 865 Ser Ser Ser Ala Ser Gly Pro Gly Ala Ser Pro Gly Gly Ser Glu Ala 195 200 205 ggc agc cag ggc tcc ggg gaa ggc gag ggt gtc cag cta aca gcg gct 913 Gly Ser Gln Gly Ser Gly Glu Gly Glu Gly Val Gln Leu Thr Ala Ala 210 215 220 caa gaa cta atg atc cag cag ttg gtg gcg gcc caa ctg cag tgc aac 961 Gln Glu Leu Met Ile Gln Gln Leu Val Ala Ala Gln Leu Gln Cys Asn 225 230 235 aaa cgc tcc ttc tcc gac cag ccc aaa gtc acg ccc tgg ccc ctg ggc 1009 Lys Arg Ser Phe Ser Asp Gln Pro Lys Val Thr Pro Trp Pro Leu Gly 240 245 250 255 gca gac ccc cag tcc cga gat gcc cgc cag caa cgc ttt gcc cac ttc 1057 Ala Asp Pro Gln Ser Arg Asp Ala Arg Gln Gln Arg Phe Ala His Phe 260 265 270 acg gag ctg gcc atc atc tca gtc cag gag atc gtg gac ttc gct aag 1105 Thr Glu Leu Ala Ile Ile Ser Val Gln Glu Ile Val Asp Phe Ala Lys 275 280 285 caa gtg cct ggt ttc ctg cag ctg ggc cgg gag gac cag atc gcc ctc 1153 Gln Val Pro Gly Phe Leu Gln Leu Gly Arg Glu Asp Gln Ile Ala Leu 290 295 300 ctg aag gca tcc act atc gag atc atg ctg cta gag aca gcc agg cgc 1201 Leu Lys Ala Ser Thr Ile Glu Ile Met Leu Leu Glu Thr Ala Arg Arg 305 310 315 tac aac cac gag aca gag tgt atc acc ttc ttg aag gac ttc acc tac 1249 Tyr Asn His Glu Thr Glu Cys Ile Thr Phe Leu Lys Asp Phe Thr Tyr 320 325 330 335 agc aag gac gac ttc cac cgt gca ggc ctg cag gtg gag ttc atc aac 1297 Ser Lys Asp Asp Phe His Arg Ala Gly Leu Gln Val Glu Phe Ile Asn 340 345 350 ccc atc ttc gag ttc tcg cgg gcc atg cgg cgg ctg ggc ctg gac gac 1345 Pro Ile Phe Glu Phe Ser Arg Ala Met Arg Arg Leu Gly Leu Asp Asp 355 360 365 gct gag tac gcc ctg ctc atc gcc atc aac atc ttc tcg gcc gac cgg 1393 Ala Glu Tyr Ala Leu Leu Ile Ala Ile Asn Ile Phe Ser Ala Asp Arg 370 375 380 ccc aac gtg cag gag ccg ggc cgc gtg gag gcg ttg cag cag ccc tac 1441 Pro Asn Val Gln Glu Pro Gly Arg Val Glu Ala Leu Gln Gln Pro Tyr 385 390 395 gtg gag gcg ctg ctg tcc tac acg cgc atc aag agg ccg cag gac cag 1489 Val Glu Ala Leu Leu Ser Tyr Thr Arg Ile Lys Arg Pro Gln Asp Gln 400 405 410 415 ctg cgc ttc ccg cgc atg ctc atg aag ctg gtg agc ctg cgc acg ctg 1537 Leu Arg Phe Pro Arg Met Leu Met Lys Leu Val Ser Leu Arg Thr Leu 420 425 430 agc tct gtg cac tcg gag cag gtc ttc gcc ttg cgg ctc cag gac aag 1585 Ser Ser Val His Ser Glu Gln Val Phe Ala Leu Arg Leu Gln Asp Lys 435 440 445 aag ctg ccg cct ctg ctg tcg gag atc tgg gac gtc cac gag tga 1630 Lys Leu Pro Pro Leu Leu Ser Glu Ile Trp Asp Val His Glu 450 455 460 ggggctggcc acccagcccc acagccttgc ctgaccaccc tccagcagat agacgccggc 1690 accccttcct cttcctaggg tggaaggggc cctgggcgag cctgtagacc tatcggctct 1750 catcccttgg gataagcccc agtccaggtc caggaggctc cctccctgcc cagcgagtct 1810 tccagaaggg gtgaaagggt tgcaggtccc gaccactgac ccttcccggc tgccctccct 1870 ccccagctta cacctcaagc ccagcacgca gcgtaccttg aacagaggga ggggaggacc 1930 catggctctc cccccctagc ccgggagacc aggggccttc ctcttcctct gcttttattt 1990 aataaaaata aaaacagaaa 2010 4 461 PRT Homo sapiens 4 Met Ser Ser Pro Thr Thr Ser Ser Leu Asp Thr Pro Leu Pro Gly Asn 1 5 10 15 Gly Pro Pro Gln Pro Gly Ala Pro Ser Ser Ser Pro Thr Val Lys Glu 20 25 30 Glu Gly Pro Glu Pro Trp Pro Gly Gly Pro Asp Pro Asp Val Pro Gly 35 40 45 Thr Asp Glu Ala Ser Ser Ala Cys Ser Thr Asp Trp Val Ile Pro Asp 50 55 60 Pro Glu Glu Glu Pro Glu Arg Lys Arg Lys Lys Gly Pro Ala Pro Lys 65 70 75 80 Met Leu Gly His Glu Leu Cys Arg Val Cys Gly Asp Lys Ala Ser Gly 85 90 95 Phe His Tyr Asn Val Leu Ser Cys Glu Gly Cys Lys Gly Phe Phe Arg 100 105 110 Arg Ser Val Val Arg Gly Gly Ala Arg Arg Tyr Ala Cys Arg Gly Gly 115 120 125 Gly Thr Cys Gln Met Asp Ala Phe Met Arg Arg Lys Cys Gln Gln Cys 130 135 140 Arg Leu Arg Lys Cys Lys Glu Ala Gly Met Arg Glu Gln Cys Val Leu 145 150 155 160 Ser Glu Glu Gln Ile Arg Lys Lys Lys Ile Arg Lys Gln Gln Gln Gln 165 170 175 Glu Ser Gln Ser Gln Ser Gln Ser Pro Val Gly Pro Gln Gly Ser Ser 180 185 190 Ser Ser Ala Ser Gly Pro Gly Ala Ser Pro Gly Gly Ser Glu Ala Gly 195 200 205 Ser Gln Gly Ser Gly Glu Gly Glu Gly Val Gln Leu Thr Ala Ala Gln 210 215 220 Glu Leu Met Ile Gln Gln Leu Val Ala Ala Gln Leu Gln Cys Asn Lys 225 230 235 240 Arg Ser Phe Ser Asp Gln Pro Lys Val Thr Pro Trp Pro Leu Gly Ala 245 250 255 Asp Pro Gln Ser Arg Asp Ala Arg Gln Gln Arg Phe Ala His Phe Thr 260 265 270 Glu Leu Ala Ile Ile Ser Val Gln Glu Ile Val Asp Phe Ala Lys Gln 275 280 285 Val Pro Gly Phe Leu Gln Leu Gly Arg Glu Asp Gln Ile Ala Leu Leu 290 295 300 Lys Ala Ser Thr Ile Glu Ile Met Leu Leu Glu Thr Ala Arg Arg Tyr 305 310 315 320 Asn His Glu Thr Glu Cys Ile Thr Phe Leu Lys Asp Phe Thr Tyr Ser 325 330 335 Lys Asp Asp Phe His Arg Ala Gly Leu Gln Val Glu Phe Ile Asn Pro 340 345 350 Ile Phe Glu Phe Ser Arg Ala Met Arg Arg Leu Gly Leu Asp Asp Ala 355 360 365 Glu Tyr Ala Leu Leu Ile Ala Ile Asn Ile Phe Ser Ala Asp Arg Pro 370 375 380 Asn Val Gln Glu Pro Gly Arg Val Glu Ala Leu Gln Gln Pro Tyr Val 385 390 395 400 Glu Ala Leu Leu Ser Tyr Thr Arg Ile Lys Arg Pro Gln Asp Gln Leu 405 410 415 Arg Phe Pro Arg Met Leu Met Lys Leu Val Ser Leu Arg Thr Leu Ser 420 425 430 Ser Val His Ser Glu Gln Val Phe Ala Leu Arg Leu Gln Asp Lys Lys 435 440 445 Leu Pro Pro Leu Leu Ser Glu Ile Trp Asp Val His Glu 450 455 460 5 660 DNA Homo sapiens CDS (1)..(660) 5 gag aag ctc gtc gct gcc cag caa cag tgt aac cgg cgc tcc ttt tct 48 Glu Lys Leu Val Ala Ala Gln Gln Gln Cys Asn Arg Arg Ser Phe Ser 1 5 10 15 gac cgg ctt cga gtc acg cct tgg ccc atg gca cca gat ccc cat agc 96 Asp Arg Leu Arg Val Thr Pro Trp Pro Met Ala Pro Asp Pro His Ser 20 25 30 cgg gag gcc cgt cag cag cgc ttt gcc cac ttc act gag ctg gcc atc 144 Arg Glu Ala Arg Gln Gln Arg Phe Ala His Phe Thr Glu Leu Ala Ile 35 40 45 gtc tct gtg cag gag ata gtt gac ttt gct aaa cag cta ccc ggc ttc 192 Val Ser Val Gln Glu Ile Val Asp Phe Ala Lys Gln Leu Pro Gly Phe 50 55 60 ctg cag ctc agc cgg gag gac cag att gcc ctg ctg aag acc tct gcg 240 Leu Gln Leu Ser Arg Glu Asp Gln Ile Ala Leu Leu Lys Thr Ser Ala 65 70 75 80 atc gag gtg atg ctt ctg gag aca tct cgg agg tac aac cct ggg agt 288 Ile Glu Val Met Leu Leu Glu Thr Ser Arg Arg Tyr Asn Pro Gly Ser 85 90 95 gag agt atc acc ttc ctc aag gat ttc agt tat aac cgg gaa gac ttt 336 Glu Ser Ile Thr Phe Leu Lys Asp Phe Ser Tyr Asn Arg Glu Asp Phe 100 105 110 gcc aaa gca ggg ctg caa gtg gaa ttc atc aac ccc atc ttc gag ttc 384 Ala Lys Ala Gly Leu Gln Val Glu Phe Ile Asn Pro Ile Phe Glu Phe 115 120 125 tcc agg gcc atg aat gag ctg caa ctc aat gat gcc gag ttt gcc ttg 432 Ser Arg Ala Met Asn Glu Leu Gln Leu Asn Asp Ala Glu Phe Ala Leu 130 135 140 ctc att gct atc agc atc ttc tct gca gac cgg ccc aac gtg cag gac 480 Leu Ile Ala Ile Ser Ile Phe Ser Ala Asp Arg Pro Asn Val Gln Asp 145 150 155 160 cag ctc cag gtg gag agg ctg cag cac aca tat gtg gaa gcc ctg cat 528 Gln Leu Gln Val Glu Arg Leu Gln His Thr Tyr Val Glu Ala Leu His 165 170 175 gcc tac gtc tcc atc cac cat ccc cat gac cga ctg atg ttc cca cgg 576 Ala Tyr Val Ser Ile His His Pro His Asp Arg Leu Met Phe Pro Arg 180 185 190 atg cta atg aaa ctg gtg agc ctc cgg acc ctg agc agc gtc cac tca 624 Met Leu Met Lys Leu Val Ser Leu Arg Thr Leu Ser Ser Val His Ser 195 200 205 gag caa gtg ttt gca ctg cgt ctg cag gac aaa aag 660 Glu Gln Val Phe Ala Leu Arg Leu Gln Asp Lys Lys 210 215 220 6 220 PRT Homo sapiens 6 Glu Lys Leu Val Ala Ala Gln Gln Gln Cys Asn Arg Arg Ser Phe Ser 1 5 10 15 Asp Arg Leu Arg Val Thr Pro Trp Pro Met Ala Pro Asp Pro His Ser 20 25 30 Arg Glu Ala Arg Gln Gln Arg Phe Ala His Phe Thr Glu Leu Ala Ile 35 40 45 Val Ser Val Gln Glu Ile Val Asp Phe Ala Lys Gln Leu Pro Gly Phe 50 55 60 Leu Gln Leu Ser Arg Glu Asp Gln Ile Ala Leu Leu Lys Thr Ser Ala 65 70 75 80 Ile Glu Val Met Leu Leu Glu Thr Ser Arg Arg Tyr Asn Pro Gly Ser 85 90 95 Glu Ser Ile Thr Phe Leu Lys Asp Phe Ser Tyr Asn Arg Glu Asp Phe 100 105 110 Ala Lys Ala Gly Leu Gln Val Glu Phe Ile Asn Pro Ile Phe Glu Phe 115 120 125 Ser Arg Ala Met Asn Glu Leu Gln Leu Asn Asp Ala Glu Phe Ala Leu 130 135 140 Leu Ile Ala Ile Ser Ile Phe Ser Ala Asp Arg Pro Asn Val Gln Asp 145 150 155 160 Gln Leu Gln Val Glu Arg Leu Gln His Thr Tyr Val Glu Ala Leu His 165 170 175 Ala Tyr Val Ser Ile His His Pro His Asp Arg Leu Met Phe Pro Arg 180 185 190 Met Leu Met Lys Leu Val Ser Leu Arg Thr Leu Ser Ser Val His Ser 195 200 205 Glu Gln Val Phe Ala Leu Arg Leu Gln Asp Lys Lys 210 215 220 7 792 DNA Artificial Sequence LXR LBD Construct 7 atg aaa aaa cat cat cat cat cat cat ctg gtt ccg cgt gga tcc gaa 48 Met Lys Lys His His His His His His Leu Val Pro Arg Gly Ser Glu 1 5 10 15 ggc gag ggt gtc cag cta aca gcg gct caa gaa cta atg atc cag cag 96 Gly Glu Gly Val Gln Leu Thr Ala Ala Gln Glu Leu Met Ile Gln Gln 20 25 30 ttg gtg gcg gcc caa ctg cag tgc aac aaa cgc tcc ttc tcc gac cag 144 Leu Val Ala Ala Gln Leu Gln Cys Asn Lys Arg Ser Phe Ser Asp Gln 35 40 45 ccc aaa gtc acg ccc tgg ccc ctg ggc gca gac ccc cag tcc cga gat 192 Pro Lys Val Thr Pro Trp Pro Leu Gly Ala Asp Pro Gln Ser Arg Asp 50 55 60 gcc cgc cag caa cgc ttt gcc cac ttc acg gag ctg gcc atc atc tca 240 Ala Arg Gln Gln Arg Phe Ala His Phe Thr Glu Leu Ala Ile Ile Ser 65 70 75 80 gtc cag gag atc gtg gac ttc gct aag caa gtg cct ggt ttc ctg cag 288 Val Gln Glu Ile Val Asp Phe Ala Lys Gln Val Pro Gly Phe Leu Gln 85 90 95 ctg ggc cgg gag gac cag atc gcc ctc ctg aag gca tcc act atc gag 336 Leu Gly Arg Glu Asp Gln Ile Ala Leu Leu Lys Ala Ser Thr Ile Glu 100 105 110 atc atg ctg cta gag aca gcc agg cgc tac aac cac gag aca gag tgt 384 Ile Met Leu Leu Glu Thr Ala Arg Arg Tyr Asn His Glu Thr Glu Cys 115 120 125 atc acc ttc ttg aag gac ttc acc tac agc aag gac gac ttc cac cgt 432 Ile Thr Phe Leu Lys Asp Phe Thr Tyr Ser Lys Asp Asp Phe His Arg 130 135 140 gca ggc ctg cag gtg gag ttc atc aac ccc atc ttc gag ttc tcg cgg 480 Ala Gly Leu Gln Val Glu Phe Ile Asn Pro Ile Phe Glu Phe Ser Arg 145 150 155 160 gcc atg cgg cgg ctg ggc ctg gac gac gct gag tac gcc ctg ctc atc 528 Ala Met Arg Arg Leu Gly Leu Asp Asp Ala Glu Tyr Ala Leu Leu Ile 165 170 175 gcc atc aac atc ttc tcg gcc gac cgg ccc aac gtg cag gag ccg ggc 576 Ala Ile Asn Ile Phe Ser Ala Asp Arg Pro Asn Val Gln Glu Pro Gly 180 185 190 cgc gtg gag gcg ttg cag cag ccc tac gtg gag gcg ctg ctg tcc tac 624 Arg Val Glu Ala Leu Gln Gln Pro Tyr Val Glu Ala Leu Leu Ser Tyr 195 200 205 acg cgc atc aag agg ccg cag gac cag ctg cgc ttc ccg cgc atg ctc 672 Thr Arg Ile Lys Arg Pro Gln Asp Gln Leu Arg Phe Pro Arg Met Leu 210 215 220 atg aag ctg gtg agc ctg cgc acg ctg agc tct gtg cac tcg gag cag 720 Met Lys Leu Val Ser Leu Arg Thr Leu Ser Ser Val His Ser Glu Gln 225 230 235 240 gtc ttc gcc ttg cgg ctc cag gac aag aag ctg ccg cct ctg ctg tcg 768 Val Phe Ala Leu Arg Leu Gln Asp Lys Lys Leu Pro Pro Leu Leu Ser 245 250 255 gag atc tgg gac gtc cac gag tag 792 Glu Ile Trp Asp Val His Glu 260 8 263 PRT Artificial Sequence LXR LBD Construct 8 Met Lys Lys His His His His His His Leu Val Pro Arg Gly Ser Glu 1 5 10 15 Gly Glu Gly Val Gln Leu Thr Ala Ala Gln Glu Leu Met Ile Gln Gln 20 25 30 Leu Val Ala Ala Gln Leu Gln Cys Asn Lys Arg Ser Phe Ser Asp Gln 35 40 45 Pro Lys Val Thr Pro Trp Pro Leu Gly Ala Asp Pro Gln Ser Arg Asp 50 55 60 Ala Arg Gln Gln Arg Phe Ala His Phe Thr Glu Leu Ala Ile Ile Ser 65 70 75 80 Val Gln Glu Ile Val Asp Phe Ala Lys Gln Val Pro Gly Phe Leu Gln 85 90 95 Leu Gly Arg Glu Asp Gln Ile Ala Leu Leu Lys Ala Ser Thr Ile Glu 100 105 110 Ile Met Leu Leu Glu Thr Ala Arg Arg Tyr Asn His Glu Thr Glu Cys 115 120 125 Ile Thr Phe Leu Lys Asp Phe Thr Tyr Ser Lys Asp Asp Phe His Arg 130 135 140 Ala Gly Leu Gln Val Glu Phe Ile Asn Pro Ile Phe Glu Phe Ser Arg 145 150 155 160 Ala Met Arg Arg Leu Gly Leu Asp Asp Ala Glu Tyr Ala Leu Leu Ile 165 170 175 Ala Ile Asn Ile Phe Ser Ala Asp Arg Pro Asn Val Gln Glu Pro Gly 180 185 190 Arg Val Glu Ala Leu Gln Gln Pro Tyr Val Glu Ala Leu Leu Ser Tyr 195 200 205 Thr Arg Ile Lys Arg Pro Gln Asp Gln Leu Arg Phe Pro Arg Met Leu 210 215 220 Met Lys Leu Val Ser Leu Arg Thr Leu Ser Ser Val His Ser Glu Gln 225 230 235 240 Val Phe Ala Leu Arg Leu Gln Asp Lys Lys Leu Pro Pro Leu Leu Ser 245 250 255 Glu Ile Trp Asp Val His Glu 260 9 25 PRT Homo sapiens 9 Cys Pro Ser Ser His Ser Ser Leu Thr Glu Arg His Lys Ile Leu His 1 5 10 15 Arg Leu Leu Gln Gln Gly Ser Pro Ser 20 25 10 238 PRT Homo sapiens 10 Leu Ser Pro Ala Leu Glu Glu Leu Ile Thr Lys Val Ser Lys Ala His 1 5 10 15 Gln Glu Thr Phe Pro Ser Leu Cys Gln Leu Gly Lys Tyr Thr Thr Asn 20 25 30 Ser Ser Ala Asp His Arg Val Gln Leu Asp Leu Gly Leu Trp Asp Lys 35 40 45 Phe Ser Glu Leu Ala Thr Lys Cys Ile Ile Lys Ile Val Glu Phe Ala 50 55 60 Lys Arg Leu Pro Gly Phe Thr Gly Leu Ser Ile Ala Asp Gln Ile Thr 65 70 75 80 Leu Leu Lys Ala Ala Cys Leu Asp Ile Leu Met Leu Arg Ile Cys Thr 85 90 95 Arg Tyr Thr Pro Glu Gln Asp Thr Met Thr Phe Ser Asp Gly Leu Thr 100 105 110 Leu Asn Arg Thr Gln Met His Asn Ala Gly Phe Gly Pro Leu Thr Asp 115 120 125 Leu Val Phe Ala Phe Ala Gly Gln Leu Leu Pro Leu Glu Met Asp Asp 130 135 140 Thr Glu Thr Gly Leu Leu Ser Ala Ile Cys Leu Ile Cys Gly Asp Arg 145 150 155 160 Met Asp Leu Glu Glu Pro Glu Lys Val Asp Lys Leu Gln Glu Pro Leu 165 170 175 Leu Glu Ala Leu Arg Leu Tyr Ala Arg Arg Arg Arg Pro Ser Gln Pro 180 185 190 Tyr Met Phe Pro Arg Met Leu Met Lys Ile Thr Asp Leu Arg Gly Ile 195 200 205 Ser Thr Lys Gly Ala Glu Arg Ala Ile Thr Leu Lys Met Glu Ile Pro 210 215 220 Gly Pro Met Pro Pro Leu Ile Arg Glu Met Leu Glu Asn Pro 225 230 235 

What is claimed is:
 1. A crystalline form comprising a substantially pure LXR ligand binding domain polypeptide and a ligand.
 2. The crystalline form of claim 1, wherein the LXR ligand binding domain polypeptide comprises the amino acid sequence of SEQ ID NO:
 8. 3. The crystalline form of claim 1, wherein the ligand is N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide.
 4. The crystalline form of claim 1, wherein the ligand is 24(S), 25-epoxycholesterol.
 5. The crystalline form of claim 1, wherein the crystalline form has lattice constants of a=60.25 Å, b=82.45 Å, c=123.18 Å, α=90°, β=90°, γ=90°. 6 The crystalline form of claim 1, wherein the crystalline form is an orthorhombic crystalline form.
 7. The crystalline form of claim 1, wherein the crystalline form has a space group of P2₁2₁2₁.
 8. The crystalline form of claim 1, wherein the crystalline form contains two LXR ligand binding domain polypeptides in the asymmetric unit.
 9. The crystalline form of claim 1, wherein the crystalline form is further characterized by the coordinates corresponding to Table
 2. 10. The crystalline form of claim 1, wherein the crystalline form is such that the three-dimensional structure of the crystalline form can be determined to a resolution of about 2.8 Å or better.
 11. The crystalline form of claim 1, wherein the crystalline form contains one or more atoms having a atomic weight of 40 grams/mol or greater.
 12. A crystalline form comprising a substantially pure LXR ligand binding domain polypeptide, a coactivator polypeptide and a ligand.
 13. The crystalline form of claim 12, wherein the LXR ligand binding domain polypeptide comprises the amino acid sequence shown of SEQ ID NO:
 8. 14. The crystalline form of claim 12, wherein the ligand is 24(S), 25-epoxycholesterol, and the coactivator polypeptide is a SRC1 fragment.
 15. The crystalline form of claim 12, wherein the SRC1 fragment comprises the amino acid sequence of SEQ ID NO:
 9. 16. The crystalline form of claim 12, wherein the crystalline form has lattice constants selected from the group consisting of a=71.17 Å, b=120.01 Å, c=147.56 Å, α=90, β=90°, γ=90°.
 17. The crystalline form of claim 12, wherein the crystalline form is an orthorhombic crystalline form.
 18. The crystalline form of claim 12, wherein the crystalline form has a space group of C222₁.
 19. The crystalline form of claim 12, wherein the crystalline form contains two LXR ligand binding domain polypeptides and two coactivator polypeptides in the asymmetric unit.
 20. The crystalline form of claim 12, wherein the crystalline form is further characterized by the coordinates corresponding to Table
 3. 21. The crystalline form of claim 12, wherein the crystalline form is such that the three-dimensional structure of the crystalline form can be determined to a resolution of about 2.8 Å or better.
 22. The crystalline form of claim 12, wherein the crystalline form comprises one or more atoms having a atomic weight of 40 grams/mol or greater.
 23. A method for determining the three-dimensional structure of a crystallized LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide to a resolution of about 2.8 Å or better, the method comprising: (a) crystallizing a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator fragment to form a crystallized complex; and (b) analyzing the crystallized complex to determine the three-dimensional structure of the LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide, whereby the three-dimensional structure of a crystallized LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide is determined to a resolution of about 2.8 Å or better.
 24. The method of claim 23, wherein the analyzing is by X-ray diffraction.
 25. The method of claim 23, wherein the crystallization is accomplished by the hanging drop vapor diffusion method, and wherein the LXR ligand binding domain polypeptide and the ligand are mixed with an equal volume of reservoir.
 26. The method of claim 25, wherein the reservoir comprises 10-12% PEG3350-8000 and 0.2 M salt.
 27. The method of claim 23, wherein the salt is selected from the group consisting of NaF, KF, NaCl, KCl, Na formate, Na acetate, K acetate, ammonium sulfate and lithium sulfate.
 28. The method of claim 23, wherein the LXR ligand binding domain polypeptide comprises the amino acid sequence of SEQ ID NO:
 8. 29. The method of claim 23, wherein the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide.
 30. The method of claim 23, wherein the coactivator polypeptide is a SRC1 polypeptide.
 31. The method of claim 30, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 32. A method of generating a crystalline form comprising a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide, the method comprising: (a) incubating a solution comprising a LXR ligand binding domain and one or more of a ligand and a coactivator polypeptide with an equal volume of reservoir; and (b) crystallizing the LXR ligand binding domain polypeptide and one or more of a ligand and a coactivator polypeptide using the hanging drop method, whereby a crystalline form of a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide is generated.
 33. The method of claim 32, wherein the LXR ligand binding domain comprises the amino acid sequence of SEQ ID NO:
 8. 34. The method of claim 32, wherein the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide.
 35. The method of claim 32, wherein the coactivator polypeptide comprises a SRC1 polypeptide.
 36. The method of claim 35, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 37. A crystalline form of a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide produced by the method of claim
 32. 38. A method of designing a modulator of a NR polypeptide, the method comprising: (a) designing a potential modulator of a NR polypeptide that will make interactions with amino acids in a ligand binding site of the NR polypeptide, based upon a crystalline structure comprising a LXR ligand binding domain polypeptide in complex with a one or more of a ligand and a coactivator polypeptide; (b) synthesizing the modulator; and (c) determining whether the potential modulator modulates the activity of the NR polypeptide, whereby a modulator of a NR polypeptide is designed.
 39. The method of claim 38, wherein the ligand is selected from the group consisting of 24(S), 25-epoxycholesterol and N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide.
 40. The method of claim 38, wherein the coactivator polypeptide comprises a SRC1 polypeptide.
 41. The method of claim 38, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 42. The method of claim 38, wherein the NR comprises a LXR.
 43. The method of claim 42, wherein the LXR comprises a LXRβ.
 44. The method of claim 43, wherein the LXRβ comprises the amino acid sequence of SEQ ID NO:
 4. 45. The method of claim 38, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 46. A method of designing a modulator that selectively modulates the activity of a NR polypeptide compared to other polypeptides, the method comprising: (a) obtaining a crystalline form comprising a LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coativator polypeptide; (b) evaluating the three-dimensional structure of the crystallized LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide; and (c) synthesizing a potential modulator based on the three-dimensional structure of the crystallized LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide, whereby a modulator that selectively modulates the activity of a NR polypeptide compared to other polypeptides is designed.
 47. The method of claim 46, wherein the method further comprises contacting a NR ligand binding domain polypeptide with the potential modulator and one or more of a ligand and a coactivator polypeptide; and assaying the NR ligand binding domain polypeptide for binding of the potential modulator, for a change in activity of the NR ligand binding domain polypeptide, or both.
 48. The method of claim 46, wherein the LXRβ ligand binding domain polypeptide comprises the amino acid sequence of SEQ ID NO:
 8. 49. The method of claim 46, wherein the NR comprises a LXR.
 50. The method of claim 49, wherein the LXR comprises LXRβ.
 51. The method of claim 46, wherein the crystalline form is an orthorhombic form.
 52. The method of claim 46, wherein the crystalline form is further characterized by the atomic structural coordinates of one of Table 2 and Table
 3. 53. The method of claim 46, wherein the crystalline form is such that the three-dimensional structure of the crystallized LXRβ ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide can be determined to a resolution of about 2.8 Å or better.
 54. The method of claim 46, wherein the coactivator polypeptide comprises a SRC1 peptide.
 55. Then method of claim 54, wherein the SRC1 peptide comprises the sequence of SEQ ID NO:
 9. 56. The method of claim 46, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 57. A method of screening a plurality of compounds for a modulator of a NR ligand binding domain polypeptide, the method comprising: (a) providing a library of test samples; (b) contacting a crystalline form comprising a LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide with each test sample; (c) detecting an interaction between a test sample and the crystalline LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide; (d) identifying a test sample that interacts with the crystalline LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coactivator polypeptide; and (e) isolating a test sample that interacts with the crystalline LXR ligand binding domain polypeptide in complex with one or more of a ligand and a coregulator polypeptide, whereby a plurality of compounds is screened for a modulator of a NR ligand binding domain polypeptide.
 58. The method of claim 57, wherein the crystalline form is further characterized by an atomic structural coordinate set selected from the group consisting of Table 2 and Table
 3. 59. The method of claim 57, wherein the LXR ligand binding domain polypeptide comprises a LXRβ ligand binding domain polypeptide.
 60. The method of claim 59, wherein the LXRβ ligand binding domain polypeptide comprises the amino acid sequence of SEQ ID NO:
 8. 61. The method of claim 57, wherein the test samples are bound to a substrate.
 62. The method of claim 57, wherein the test samples are synthesized directly on a substrate.
 63. The method of claim 57, wherein the coregulator polypeptide comprises a SRC1 polypeptide.
 64. The method of claim 63, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 65. The method of claim 57, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 66. A method for identifying a NR modulator, the method comprising: (a) providing atomic structural coordinates describing a LXR ligand binding domain in complex with one or more of a ligand and a coactivator polypeptide to a computerized modeling system; and (b) modeling ligands that fit spatially into the binding pocket of the LXR ligand binding domain to thereby identify a NR modulator.
 67. The method of claim 66, wherein the method further comprises identifying in an assay for NR-mediated activity a modeled ligand that increases or decreases the activity of the NR.
 68. The method of claim 66, wherein the atomic structural coordinates are selected from the group consisting of the coordinates of Table 2 and the coordinates of Table
 3. 69. The method of claim 66, wherein the LXR comprises LXRβ.
 70. The method of claim 66, wherein the LXRβ ligand binding domain comprises the amino acid sequence of SEQ ID NO:
 8. 71. The method of claim 66, wherein the coactivator polypeptide comprises a SRC1 polypeptide.
 72. The method of claim 71, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 73. The method of claim 66, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 74. A method of identifying a LXR modulator that selectively modulates the activity of a LXRβ polypeptide compared to other polypeptides, the method comprising: (a) providing atomic structural coordinates describing a LXRβ ligand binding domain in complex with one or more of a ligand and a coactivator polypeptide to a computerized modeling system; and (b) modeling a ligand that fits into the binding pocket of a LXRβ ligand binding domain and that interacts with residues of a LXRβ that are conserved among LXR subtypes to thereby identify a LXRβ modulator that selectively modulates the activity of a LXRβ polypeptide compared to other polypeptides.
 75. The method of claim 74, wherein the method further comprises identifying in a biological assay for LXRβ activity a modeled ligand that selectively binds to said LXRβ and increases or decreases the activity of said LXRβ.
 76. The method of claim 74, wherein the atomic structural coordinates are selected from the group consisting of the coordinates of Table 2 and the coordinates of Table
 3. 77. The method of claim 74, wherein the LXRβ ligand binding domain comprises the amino acid sequence shown in SEQ ID NO:
 8. 78. The method of claim 74, wherein the coactivator polypeptide comprises a SRC1 polypeptide.
 79. The method of claim 78, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 80. The method of claim 74, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 81. A method of designing a modulator of a NR polypeptide, the method comprising: (a) selecting a candidate NR ligand; (b) determining which amino acid or amino acids of a NR polypeptide interact with the ligand using a three-dimensional model of a crystallized protein, the model comprising a LXRβ ligand binding domain in complex with one or more of a ligand and a coactivator polypeptide; (c) identifying in a biological assay for NR activity a degree to which the ligand modulates the activity of the NR polypeptide; (d) selecting a chemical modification of the ligand wherein the interaction between the amino acids of the NR polypeptide and the ligand is predicted to be modulated by the chemical modification; (e) synthesizing a ligand having the chemical modified to form a modified ligand; (f) contacting the modified ligand with the NR polypeptide; (g) identifying in a biological assay for NR activity a degree to which the modified ligand modulates the biological activity of the NR polypeptide; and (h) comparing the biological activity of the NR polypeptide in the presence of modified ligand with the biological activity of the NR polypeptide in the presence of the unmodified ligand, whereby a modulator of a NR polypeptide is designed.
 82. The method of claim 81, wherein the NR polypeptide is a LXR polypeptide.
 83. The method of claim 81, wherein the LXR is selected from the group consisting of a LXRα polypeptide and a LXRβ polypeptide.
 84. The method of claim 83, wherein the LXRβ polypeptide has the amino acid sequence shown in SEQ ID NO:
 4. 85. The method of claim 81, wherein the LXRA polypeptide comprises the amino acid sequence of SEQ ID NO:
 2. 86. The method of claim 81, wherein the three-dimensional model of a crystallized protein is further characterized by atomic structural coordinates selected from the group consisting of the coordinates of Table 2 and the coordinates of Table
 3. 87. The method of claim 81, wherein the coactivator polypeptide is a SRC1 polypeptide.
 88. The method of claim 87, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 89. The method of claim 81, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 90. The method of claim 81, wherein the method further comprises repeating steps (a) through (f), if the biological activity of the NR polypeptide in the presence of the modified ligand varies from the biological activity of the NR polypeptide in the presence of the unmodified ligand.
 91. A method of identifying a LXR modulator that selectively modulates the biological activity of one LXR subtype compared to LXRβ, the method comprising: (a) providing an atomic structure coordinate set describing a LXRβ ligand binding domain structure in complex with one or more of a ligand and a coactivator polypeptide and at least one other atomic structure coordinate set describing a LXR ligand binding domain, each ligand binding domain comprising a ligand binding site; (b) comparing the LXR atomic structure coordinate sets to identify at least one difference between the sets; (c) designing a candidate ligand predicted to interact with the difference of step (b); (d) synthesizing the candidate ligand; and (e) testing the synthesized candidate ligand for an ability to selectively modulate a LXR subtype as compared to LXRβ, whereby a LXR modulator that selectively modulates the biological activity of one LXR subtype compared to LXRβ is identified.
 92. The method of claim 91, wherein the LXR subtype whose biological activity is to be modulated comprises LXRA.
 93. The method of claim 92, wherein the LXRα comprises the amino acid sequence of SEQ ID NO:
 2. 94. The method of claim 91, wherein the atomic structure coordinate set describing a LXRβ ligand binding domain structure is selected from the group consisting of the coordinates of Table 2 and the coordinates of Table
 3. 95. The method of claim 91, wherein the coactivator polypeptide comprises a SRC1 polypeptide.
 96. The method of claim 95, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 97. The method of claim 91, wherein the atomic structure coordinate set further describes an associated ligand.
 98. The method of claim 97, wherein the ligand is selected from the group consisting of N-(2,2,2-trifluoroethyl)-N-[4-(2,2,2-trifluoro-1-hydroxy-1-trifluoromethyl-ethyl)-phenyl]-benzenesulfonamide and 24(S), 25-epoxycholesterol.
 99. A method of modeling a three-dimensional structure of a target NR in complex with one or more of a ligand and a coactivator polypeptide from a template comprising the X-ray structure of a LXRβ LBD in complex with one or more of a ligand and a coactivator polypeptide, the method comprising: (a) selecting an X-ray structure of a target NR LBD as a starting model for the target NR LBD; (b) manipulating the starting model for the target NR as a rigid body to superimpose its backbone atoms onto corresponding backbone atoms of a three-dimensional template structure comprising a LXRβ in complex with one or more of a ligand and a coactivator polypeptide to form a manipulated model; (c) making a copy of the coactivator peptide from the template structure to form a model of a coactivator polypeptide bound to a template LXRβ; (d) merging the model of the coactivator polypeptide into the manipulated model to form a modified model; (e) removing one or more amino acids from the modified model; and (f) optimizing side-chain conformations, whereby a three-dimensional structure of a target NR in complex with one or more of a ligand and a coactivator polypeptide is modeled from a template comprising the X-ray structure of an NR in complex with one or more of a ligand and a coactivator polypeptide.
 100. The method of claim 99, wherein the X-ray structure of a target NR LBD is a structure built by homology modeling
 101. The method of claim 99, wherein the LXRβ ligand binding domain comprises the sequence of SEQ ID NO:
 8. 102. The method of claim 99, wherein the coactivator polypeptide is a SRC1 polypeptide.
 103. The method of claim 102, wherein the SRC1 polypeptide comprises the sequence of SEQ ID NO:
 9. 104. The method of claim 99, wherein the three-dimensional template structure is a structure characterized by the coordinates selected from the group consisting of the coordinates of Table 2, the coordinates of Table 3 and the coordinates of Table
 4. 105. The method of claim 99, wherein the optimizing comprises varying distance constraints. 